Launch Autoplot and import entire list
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CDAWeb (Raw)
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ACE ARTEMIS Alouette Apollo CNOFS CRRES Cluster DE DMSP (selected links only) Equator-S FAST GOES GPS Genesis Geotail Ground-Based Investigations Hawkeye Helios IMAGE IMP (All) ISEE ISIS ISS Interball LANL MESSENGER NOAA OMNI (Combined 1AU IP Data; Magnetic and Solar Indices) Pioneer Polar ROCSAT-1(FORMOSAT-1)/IPEI SAMPEX SNOE SOHO STEREO THEMIS TIMED TWINS Ulysses Voyager Wind
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CRIS DEF EPAM EPM IMF and Plasma data IMF, Plasma, Indices, Energetic Proton Flux MAG MFI SEPICA SIS SSC SWE SWEP SWICS ULEIS merged magnetic field and plasma data from cohoweb
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ACE/CRIS Cosmic Ray Isotope Spectrometer 1-Hour Level 2 Data - E. C. Stone (California Institute of Technology) ACE/CRIS Cosmic Ray Isotope Spectrometer Daily-averaged Level 2 Data - E. C. Stone (California Institute of Technology)
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B intensity, at 7 energies 49.1-172.3 MeV/nuc
-
C intensity, at 7 energies 56.3-198.7 MeV/nuc
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N intensity, at 7 energies 60.4-213.8 MeV/nuc
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O intensity, at 7 energies 66.3-235.8 MeV/nuc
-
F intensity, at 7 energies 68.7-245.3 MeV/nuc
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Ne intensity, at 7 energies 73.7-264.3 MeV/nuc
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Na intensity, at 7 energies 77.3-278.3 MeV/nuc
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Mg intensity, at 7 energies 82.4-298.0 MeV/nuc
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Al intensity, at 7 energies 85.3-309.6 MeV/nuc
-
Si intensity, at 7 energies 90.5-329.8 MeV/nuc
-
P intensity, at 7 energies 92.6-338.5 MeV/nuc
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S intensity, at 7 energies 97.1-356.4 MeV/nuc
-
Cl intensity, at 7 energies 98.6-362.7 MeV/nuc
-
Ar intensity, at 7 energies 102.9-380.4 MeV/nuc
-
K intensity, at 7 energies 104.9-388.8 MeV/nuc
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Ca intensity, at 7 energies 108.2-402.4 MeV/nuc
-
Sc intensity, at 7 energies 109.4-407.9 MeV/nuc
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Ti intensity, at 7 energies 112.2-419.7 MeV/nuc
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V intensity, at 7 energies 114.5-429.7 MeV/nuc
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Cr intensity, at 7 energies 117.7-443.1 MeV/nuc
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Mn intensity, at 7 energies 120.1-453.6 MeV/nuc
-
Fe intensity, at 7 energies 122.9-465.9 MeV/nuc
-
Co intensity, at 7 energies 125.5-477.2 MeV/nuc
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Ni intensity, at 7 energies 129.9-496.1 MeV/nuc
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B counts, at 7 energies 49.1-172.3 MeV/nuc
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C counts, at 7 energies 56.3-198.7 MeV/nuc
-
N counts, at 7 energies 60.4-213.8 MeV/nuc
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O counts, at 7 energies 66.3-235.8 MeV/nuc
-
F counts, at 7 energies 68.7-245.3 MeV/nuc
-
Ne counts, at 7 energies 73.7-264.3 MeV/nuc
-
Na counts, at 7 energies 77.3-278.3 MeV/nuc
-
Mg counts, at 7 energies 82.4-298.0 MeV/nuc
-
Al counts, at 7 energies 85.3-309.6 MeV/nuc
-
Si counts, at 7 energies 90.5-329.8 MeV/nuc
-
P counts, at 7 energies 92.6-338.5 MeV/nuc
-
S counts, at 7 energies 97.1-356.4 MeV/nuc
-
Cl counts, at 7 energies 98.6-362.7 MeV/nuc
-
Ar counts, at 7 energies 102.9-380.4 MeV/nuc
-
K counts, at 7 energies 104.9-388.8 MeV/nuc
-
Ca counts, at 7 energies 108.2-402.4 MeV/nuc
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Sc counts, at 7 energies 109.4-407.9 MeV/nuc
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Ti counts, at 7 energies 112.2-419.7 MeV/nuc
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V counts, at 7 energies 114.5-429.7 MeV/nuc
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Cr counts, at 7 energies 117.7-443.1 MeV/nuc
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Mn counts, at 7 energies 120.1-453.6 MeV/nuc
-
Fe counts, at 7 energies 122.9-465.9 MeV/nuc
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Co counts, at 7 energies 125.5-477.2 MeV/nuc
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Ni counts, at 7 energies 129.9-496.1 MeV/nuc
-
B intensity, at 7 energies 49.1-172.3 MeV/nuc
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C intensity, at 7 energies 56.3-198.7 MeV/nuc
-
N intensity, at 7 energies 60.4-213.8 MeV/nuc
-
O intensity, at 7 energies 66.3-235.8 MeV/nuc
-
F intensity, at 7 energies 68.7-245.3 MeV/nuc
-
Ne intensity, at 7 energies 73.7-264.3 MeV/nuc
-
Na intensity, at 7 energies 77.3-278.3 MeV/nuc
-
Mg intensity, at 7 energies 82.4-298.0 MeV/nuc
-
Al intensity, at 7 energies 85.3-309.6 MeV/nuc
-
Si intensity, at 7 energies 90.5-329.8 MeV/nuc
-
P intensity, at 7 energies 92.6-338.5 MeV/nuc
-
S intensity, at 7 energies 97.1-356.4 MeV/nuc
-
Cl intensity, at 7 energies 98.6-362.7 MeV/nuc
-
Ar intensity, at 7 energies 102.9-380.4 MeV/nuc
-
K intensity, at 7 energies 104.9-388.8 MeV/nuc
-
Ca intensity, at 7 energies 108.2-402.4 MeV/nuc
-
Sc intensity, at 7 energies 109.4-407.9 MeV/nuc
-
Ti intensity, at 7 energies 112.2-419.7 MeV/nuc
-
V intensity, at 7 energies 114.5-429.7 MeV/nuc
-
Cr intensity, at 7 energies 117.7-443.1 MeV/nuc
-
Mn intensity, at 7 energies 120.1-453.6 MeV/nuc
-
Fe intensity, at 7 energies 122.9-465.9 MeV/nuc
-
Co intensity, at 7 energies 125.5-477.2 MeV/nuc
-
Ni intensity, at 7 energies 129.9-496.1 MeV/nuc
-
B counts, at 7 energies 49.1-172.3 MeV/nuc
-
C counts, at 7 energies 56.3-198.7 MeV/nuc
-
N counts, at 7 energies 60.4-213.8 MeV/nuc
-
O counts, at 7 energies 66.3-235.8 MeV/nuc
-
F counts, at 7 energies 68.7-245.3 MeV/nuc
-
Ne counts, at 7 energies 73.7-264.3 MeV/nuc
-
Na counts, at 7 energies 77.3-278.3 MeV/nuc
-
Mg counts, at 7 energies 82.4-298.0 MeV/nuc
-
Al counts, at 7 energies 85.3-309.6 MeV/nuc
-
Si counts, at 7 energies 90.5-329.8 MeV/nuc
-
P counts, at 7 energies 92.6-338.5 MeV/nuc
-
S counts, at 7 energies 97.1-356.4 MeV/nuc
-
Cl counts, at 7 energies 98.6-362.7 MeV/nuc
-
Ar counts, at 7 energies 102.9-380.4 MeV/nuc
-
K counts, at 7 energies 104.9-388.8 MeV/nuc
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Ca counts, at 7 energies 108.2-402.4 MeV/nuc
-
Sc counts, at 7 energies 109.4-407.9 MeV/nuc
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Ti counts, at 7 energies 112.2-419.7 MeV/nuc
-
V counts, at 7 energies 114.5-429.7 MeV/nuc
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Cr counts, at 7 energies 117.7-443.1 MeV/nuc
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Mn counts, at 7 energies 120.1-453.6 MeV/nuc
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Fe counts, at 7 energies 122.9-465.9 MeV/nuc
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Co counts, at 7 energies 125.5-477.2 MeV/nuc
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Ni counts, at 7 energies 129.9-496.1 MeV/nuc
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ACE Daily GSE and J2000 GCI Position Data - E. C. Stone (California Institute of Technology) ACE Hourly RTN, GSE and J2000 GCI Attitude direction cosines - E. C. Stone (California Institute of Technology)
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ACE/EPAM Solar Energetic Particle 1-Hour Level 2 Data - R. Gold (JHU/APL) ACE/EPAM Solar Energetic Particle 5-Minute Level 2 Data - R. Gold (JHU/APL)
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P1 LEMS30 (Low Energy Magnetic Spectrometer; 0.047-0.065 MeV Ions), Sector Avg
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P2 LEMS30 (Low Energy Magnetic Spectrometer; 0.065-0.112 MeV Ions), Sector Avg
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P3 LEMS30 (Low Energy Magnetic Spectrometer; 0.112-0.187 MeV Ions), Sector Avg
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P4 LEMS30 (Low Energy Magnetic Spectrometer; 0.187-0.310 MeV Ions), Sector Avg
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P5 LEMS30 (Low Energy Magnetic Spectrometer; 0.310-0.580 MeV Ions), Sector Avg
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P6 LEMS30 (Low Energy Magnetic Spectrometer; 0.580-1.06 MeV Ions), Sector Avg
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P7 LEMS30 (Low Energy Magnetic Spectrometer; 1.06-1.91 MeV Ions), Sector Avg
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P8 LEMS30 (Low Energy Magnetic Spectrometer; 1.91-4.75 MeV Ions), Sector Avg
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P1 LEMS30 (Low Energy Magnetic Spectrometer; 0.047-0.065 MeV Ions), Uncertainty
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P2 LEMS30 (Low Energy Magnetic Spectrometer; 0.065-0.112 MeV Ions), Uncertainty
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P3 LEMS30 (Low Energy Magnetic Spectrometer; 0.112-0.187 MeV Ions), Uncertainty
-
P4 LEMS30 (Low Energy Magnetic Spectrometer; 0.187-0.310 MeV Ions), Uncertainty
-
P5 LEMS30 (Low Energy Magnetic Spectrometer; 0.310-0.580 MeV Ions), Uncertainty
-
P6 LEMS30 (Low Energy Magnetic Spectrometer; 0.580-1.06 MeV Ions), Uncertainty
-
P7 LEMS30 (Low Energy Magnetic Spectrometer; 1.06-1.91 MeV Ions), Uncertainty
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P8 LEMS30 (Low Energy Magnetic Spectrometer; 1.91-4.75 MeV Ions), Uncertainty
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DE1 DE (Deflected Electrons; 0.038-0.053 MeV Electrons), Sector Avg
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DE2 DE (Deflected Electrons; 0.053-0.103 MeV Electrons), Sector Avg
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DE3 DE (Deflected Electrons; 0.103-0.175 MeV Electrons), Sector Avg
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DE4 DE (Deflected Electrons; 0.175-0.315 MeV Electrons), Sector Avg
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DE1 DE (Deflected Electrons; 0.038-0.053 MeV Electrons), Uncertainty
-
DE2 DE (Deflected Electrons; 0.053-0.103 MeV Electrons), Uncertainty
-
DE3 DE (Deflected Electrons; 0.103-0.175 MeV Electrons), Uncertainty
-
DE4 DE (Deflected Electrons; 0.175-0.315 MeV Electrons), Uncertainty
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W3 CA60 (Composition Aperture; 0.389-1.28 MeV/nuc. He), Sector Avg
-
W4 CA60 (Composition Aperture; 1.28-6.98 MeV/nuc. He), Sector Avg
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W5 CA60 (Composition Aperture; 0.465-1.71 MeV/nuc. CNO), Sector Avg
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W6 CA60 (Composition Aperture; 1.71-19.1 MeV/nuc. CNO), Sector Avg
-
W7 CA60 (Composition Aperture; 0.239-0.840 MeV/nuc. Fe (9<Z<29)), Sector Avg
-
W8 CA60 (Composition Aperture; 0.840-92.7 MeV/nuc. Fe (9<Z<29)), Sector Avg
-
W3 CA60 (Composition Aperture; 0.389-1.28 MeV/nuc. He), Uncertainty
-
W4 CA60 (Composition Aperture; 1.28-6.98 MeV/nuc. He), Uncertainty
-
W5 CA60 (Composition Aperture; 0.465-1.71 MeV/nuc. CNO), Uncertainty
-
W6 CA60 (Composition Aperture; 1.71-19.1 MeV/nuc. CNO), Uncertainty
-
W7 CA60 (Composition Aperture; 0.239-0.840 MeV/nuc. Fe (9<Z<29)), Uncertainty
-
W8 CA60 (Composition Aperture; 0.840-92.7 MeV/nuc. Fe (9<Z<29)), Uncertainty
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E1p LEFS60 (Low Energy Foil Spectrometer; 0.045-0.062 MeV Electrons (+Ions) ), Sector Avg
-
E2p LEFS60 (Low Energy Foil Spectrometer; 0.062-0.103 MeV Electrons (+Ions) ), Sector Avg
-
E3p LEFS60 (Low Energy Foil Spectrometer; 0.103-0.175 MeV Electrons (+Ions) ), Sector Avg
-
E4p LEFS60 (Low Energy Foil Spectrometer; 0.175-0.312 MeV Electrons (+Ions) ), Sector Avg
-
FP5p LEFS60 (Low Energy Foil Spectrometer; 0.546-0.761 MeV Ions), Sector Avg
-
FP6p LEFS60 (Low Energy Foil Spectrometer; 0.761-1.22 MeV Ions), Sector Avg
-
FP7p LEFS60 (Low Energy Foil Spectrometer; 1.22-4.97 MeV Ions), Sector Avg
-
E1p LEFS60 (Low Energy Foil Spectrometer; 0.045-0.062 MeV Electrons (+Ions) ), Uncertainty
-
E2p LEFS60 (Low Energy Foil Spectrometer; 0.062-0.103 MeV Electrons (+Ions) ), Uncertainty
-
E3p LEFS60 (Low Energy Foil Spectrometer; 0.103-0.175 MeV Electrons (+Ions) ), Uncertainty
-
E4p LEFS60 (Low Energy Foil Spectrometer; 0.175-0.312 MeV Electrons (+Ions) ), Uncertainty
-
FP5p LEFS60 (Low Energy Foil Spectrometer; 0.546-0.761 MeV Ions), Uncertainty
-
FP6p LEFS60 (Low Energy Foil Spectrometer; 0.761-1.22 MeV Ions), Uncertainty
-
FP7p LEFS60 (Low Energy Foil Spectrometer; 1.22-4.97 MeV Ions), Uncertainty
-
Z2 WARTD, (Z>1, E>0.7 MeV Ions), Sector Avg
-
Z2A WARTD, (Z>7, E>7.5 MeV Ions), Sector Avg
-
Z3 WARTD, (Z>5, E>2.5 MeV Ions), Sector Avg
-
Z4 WARTD, (Z>10, E>9.0 MeV Ions), Sector Avg
-
Z2 WARTD, (Z>1, E>0.7 MeV Ions), Uncertainty
-
Z2A WARTD, (Z>7, E>7.5 MeV Ions), Uncertainty
-
Z3 WARTD, (Z>5, E>2.5 MeV Ions), Uncertainty
-
Z4 WARTD, (Z>10, E>9.0 MeV Ions), Uncertainty
-
P1p LEMS120 (Low Energy Magnetic Spectrometer; 0.047-0.066 MeV Ions), Sector Avg
-
P2p LEMS120 (Low Energy Magnetic Spectrometer; 0.066-0.114 MeV Ions), Sector Avg
-
P3p LEMS120 (Low Energy Magnetic Spectrometer; 0.114-0.190 MeV Ions), Sector Avg
-
P4p LEMS120 (Low Energy Magnetic Spectrometer; 0.190-0.310 MeV Ions), Sector Avg
-
P5p LEMS120 (Low Energy Magnetic Spectrometer; 0.310-0.580 MeV Ions), Sector Avg
-
P6p LEMS120 (Low Energy Magnetic Spectrometer; 0.580-1.05 MeV Ions), Sector Avg
-
P7p LEMS120 (Low Energy Magnetic Spectrometer; 1.05-1.89 MeV Ions), Sector Avg
-
P8p LEMS120 (Low Energy Magnetic Spectrometer; 1.89-4.75 MeV Ions), Sector Avg
-
P1p LEMS120 (Low Energy Magnetic Spectrometer; 0.047-0.066 MeV Ions), Uncertainty
-
P2p LEMS120 (Low Energy Magnetic Spectrometer; 0.066-0.114 MeV Ions), Uncertainty
-
P3p LEMS120 (Low Energy Magnetic Spectrometer; 0.114-0.190 MeV Ions), Uncertainty
-
P4p LEMS120 (Low Energy Magnetic Spectrometer; 0.190-0.310 MeV Ions), Uncertainty
-
P5p LEMS120 (Low Energy Magnetic Spectrometer; 0.310-0.580 MeV Ions), Uncertainty
-
P6p LEMS120 (Low Energy Magnetic Spectrometer; 0.580-1.05 MeV Ions), Uncertainty
-
P7p LEMS120 (Low Energy Magnetic Spectrometer; 1.05-1.89 MeV Ions), Uncertainty
-
P8p LEMS120 (Low Energy Magnetic Spectrometer; 1.89-4.75 MeV Ions), Uncertainty
-
E1 LEFS150 (Low Energy Foil Spectrometer; 0.045-0.062 MeV Electrons (+Ions) ), Sector Avg
-
E2 LEFS150 (Low Energy Foil Spectrometer; 0.062-0.102 MeV Electrons (+Ions) ), Sector Avg
-
E3 LEFS150 (Low Energy Foil Spectrometer; 0.102-0.175 MeV Electrons (+Ions) ), Sector Avg
-
E4 LEFS150 (Low Energy Foil Spectrometer; 0.175-0.312 MeV Electrons (+Ions) ), Sector Avg
-
FP5 LEFS150 (Low Energy Foil Spectrometer; (0.540-0.765 MeV Ions), Sector Avg
-
FP6 LEFS150 (Low Energy Foil Spectrometer; 0.765-1.22 MeV Ions), Sector Avg
-
FP7 LEFS150 (Low Energy Foil Spectrometer; 1.22-4.94 MeV Ions), Sector Avg
-
E1 LEFS150 (Low Energy Foil Spectrometer; 0.045-0.062 MeV Electrons (+Ions) ), Uncertainty
-
E2 LEFS150 (Low Energy Foil Spectrometer; 0.062-0.102 MeV Electrons (+Ions) ), Uncertainty
-
E3 LEFS150 (Low Energy Foil Spectrometer; 0.102-0.175 MeV Electrons (+Ions) ), Uncertainty
-
E4 LEFS150 (Low Energy Foil Spectrometer; 0.175-0.312 MeV Electrons (+Ions) ), Uncertainty
-
FP5 LEFS150 (Low Energy Foil Spectrometer; 0.540-0.765 MeV Ions), Uncertainty
-
FP6 LEFS150 (Low Energy Foil Spectrometer; 0.765-1.22 MeV Ions), Uncertainty
-
FP7 LEFS150 (Low Energy Foil Spectrometer; 1.22-4.94 MeV Ions), Uncertainty
-
P1 LEMS30 (Low Energy Magnetic Spectrometer; 0.047-0.065 MeV Ions), Sector Avg
-
P2 LEMS30 (Low Energy Magnetic Spectrometer; 0.065-0.112 MeV Ions), Sector Avg
-
P3 LEMS30 (Low Energy Magnetic Spectrometer; 0.112-0.187 MeV Ions), Sector Avg
-
P4 LEMS30 (Low Energy Magnetic Spectrometer; 0.187-0.310 MeV Ions), Sector Avg
-
P5 LEMS30 (Low Energy Magnetic Spectrometer; 0.310-0.580 MeV Ions), Sector Avg
-
P6 LEMS30 (Low Energy Magnetic Spectrometer; 0.580-1.06 MeV Ions), Sector Avg
-
P7 LEMS30 (Low Energy Magnetic Spectrometer; 1.06-1.91 MeV Ions), Sector Avg
-
P8 LEMS30 (Low Energy Magnetic Spectrometer; 1.91-4.75 MeV Ions), Sector Avg
-
P1 LEMS30 (Low Energy Magnetic Spectrometer; 0.047-0.065 MeV Ions), Uncertainty
-
P2 LEMS30 (Low Energy Magnetic Spectrometer; 0.065-0.112 MeV Ions), Uncertainty
-
P3 LEMS30 (Low Energy Magnetic Spectrometer; 0.112-0.187 MeV Ions), Uncertainty
-
P4 LEMS30 (Low Energy Magnetic Spectrometer; 0.187-0.310 MeV Ions), Uncertainty
-
P5 LEMS30 (Low Energy Magnetic Spectrometer; 0.310-0.580 MeV Ions), Uncertainty
-
P6 LEMS30 (Low Energy Magnetic Spectrometer; 0.580-1.06 MeV Ions), Uncertainty
-
P7 LEMS30 (Low Energy Magnetic Spectrometer; 1.06-1.91 MeV Ions), Uncertainty
-
P8 LEMS30 (Low Energy Magnetic Spectrometer; 1.91-4.75 MeV Ions), Uncertainty
-
DE1 DE (Deflected Electrons; 0.038-0.053 MeV Electrons), Sector Avg
-
DE2 DE (Deflected Electrons; 0.053-0.103 MeV Electrons), Sector Avg
-
DE3 DE (Deflected Electrons; 0.103-0.175 MeV Electrons), Sector Avg
-
DE4 DE (Deflected Electrons; 0.175-0.315 MeV Electrons), Sector Avg
-
DE1 DE (Deflected Electrons; 0.038-0.053 MeV Electrons), Uncertainty
-
DE2 DE (Deflected Electrons; 0.053-0.103 MeV Electrons), Uncertainty
-
DE3 DE (Deflected Electrons; 0.103-0.175 MeV Electrons), Uncertainty
-
DE4 DE (Deflected Electrons; 0.175-0.315 MeV Electrons), Uncertainty
-
W3 CA60 (Composition Aperture; 0.389-1.28 MeV/nuc. He), Sector Avg
-
W4 CA60 (Composition Aperture; 1.28-6.98 MeV/nuc. He), Sector Avg
-
W5 CA60 (Composition Aperture; 0.465-1.71 MeV/nuc. CNO), Sector Avg
-
W6 CA60 (Composition Aperture; 1.71-19.1 MeV/nuc. CNO), Sector Avg
-
W7 CA60 (Composition Aperture; 0.239-0.840 MeV/nuc. Fe (9<Z<29)), Sector Avg
-
W8 CA60 (Composition Aperture; 0.840-92.7 MeV/nuc. Fe (9<Z<29)), Sector Avg
-
W3 CA60 (Composition Aperture; 0.389-1.28 MeV/nuc. He), Uncertainty
-
W4 CA60 (Composition Aperture; 1.28-6.98 MeV/nuc. He), Uncertainty
-
W5 CA60 (Composition Aperture; 0.465-1.71 MeV/nuc. CNO), Uncertainty
-
W6 CA60 (Composition Aperture; 1.71-19.1 MeV/nuc. CNO), Uncertainty
-
W7 CA60 (Composition Aperture; 0.239-0.840 MeV/nuc. Fe (9<Z<29)), Uncertainty
-
W8 CA60 (Composition Aperture; 0.840-92.7 MeV/nuc. Fe (9<Z<29)), Uncertainty
-
E1p LEFS60 (Low Energy Foil Spectrometer; 0.045-0.062 MeV Electrons (+Ions) ), Sector Avg
-
E2p LEFS60 (Low Energy Foil Spectrometer; 0.062-0.103 MeV Electrons (+Ions) ), Sector Avg
-
E3p LEFS60 (Low Energy Foil Spectrometer; 0.103-0.175 MeV Electrons (+Ions) ), Sector Avg
-
E4p LEFS60 (Low Energy Foil Spectrometer; 0.175-0.312 MeV Electrons (+Ions) ), Sector Avg
-
FP5p LEFS60 (Low Energy Foil Spectrometer; 0.546-0.761 MeV Ions), Sector Avg
-
FP6p LEFS60 (Low Energy Foil Spectrometer; 0.761-1.22 MeV Ions), Sector Avg
-
FP7p LEFS60 (Low Energy Foil Spectrometer; 1.22-4.97 MeV Ions), Sector Avg
-
E1p LEFS60 (Low Energy Foil Spectrometer; 0.045-0.062 MeV Electrons (+Ions) ), Uncertainty
-
E2p LEFS60 (Low Energy Foil Spectrometer; 0.062-0.103 MeV Electrons (+Ions) ), Uncertainty
-
E3p LEFS60 (Low Energy Foil Spectrometer; 0.103-0.175 MeV Electrons (+Ions) ), Uncertainty
-
E4p LEFS60 (Low Energy Foil Spectrometer; 0.175-0.312 MeV Electrons (+Ions) ), Uncertainty
-
FP5p LEFS60 (Low Energy Foil Spectrometer; 0.546-0.761 MeV Ions), Uncertainty
-
FP6p LEFS60 (Low Energy Foil Spectrometer; 0.761-1.22 MeV Ions), Uncertainty
-
FP7p LEFS60 (Low Energy Foil Spectrometer; 1.22-4.97 MeV Ions), Uncertainty
-
Z2 WARTD, (Z>1, E>0.7 MeV Ions), Sector Avg
-
Z2A WARTD, (Z>7, E>7.5 MeV Ions), Sector Avg
-
Z3 WARTD, (Z>5, E>2.5 MeV Ions), Sector Avg
-
Z4 WARTD, (Z>10, E>9.0 MeV Ions), Sector Avg
-
Z2 WARTD, (Z>1, E>0.7 MeV Ions), Uncertainty
-
Z2A WARTD, (Z>7, E>7.5 MeV Ions), Uncertainty
-
Z3 WARTD, (Z>5, E>2.5 MeV Ions), Uncertainty
-
Z4 WARTD, (Z>10, E>9.0 MeV Ions), Uncertainty
-
P1p LEMS120 (Low Energy Magnetic Spectrometer; 0.047-0.066 MeV Ions), Sector Avg
-
P2p LEMS120 (Low Energy Magnetic Spectrometer; 0.066-0.114 MeV Ions), Sector Avg
-
P3p LEMS120 (Low Energy Magnetic Spectrometer; 0.114-0.190 MeV Ions), Sector Avg
-
P4p LEMS120 (Low Energy Magnetic Spectrometer; 0.190-0.310 MeV Ions), Sector Avg
-
P5p LEMS120 (Low Energy Magnetic Spectrometer; 0.310-0.580 MeV Ions), Sector Avg
-
P6p LEMS120 (Low Energy Magnetic Spectrometer; 0.580-1.05 MeV Ions), Sector Avg
-
P7p LEMS120 (Low Energy Magnetic Spectrometer; 1.05-1.89 MeV Ions), Sector Avg
-
P8p LEMS120 (Low Energy Magnetic Spectrometer; 1.89-4.75 MeV Ions), Sector Avg
-
P1p LEMS120 (Low Energy Magnetic Spectrometer; 0.047-0.066 MeV Ions), Uncertainty
-
P2p LEMS120 (Low Energy Magnetic Spectrometer; 0.066-0.114 MeV Ions), Uncertainty
-
P3p LEMS120 (Low Energy Magnetic Spectrometer; 0.114-0.190 MeV Ions), Uncertainty
-
P4p LEMS120 (Low Energy Magnetic Spectrometer; 0.190-0.310 MeV Ions), Uncertainty
-
P5p LEMS120 (Low Energy Magnetic Spectrometer; 0.310-0.580 MeV Ions), Uncertainty
-
P6p LEMS120 (Low Energy Magnetic Spectrometer; 0.580-1.05 MeV Ions), Uncertainty
-
P7p LEMS120 (Low Energy Magnetic Spectrometer; 1.05-1.89 MeV Ions), Uncertainty
-
P8p LEMS120 (Low Energy Magnetic Spectrometer; 1.89-4.75 MeV Ions), Uncertainty
-
E1 LEFS150 (Low Energy Foil Spectrometer; 0.045-0.062 MeV Electrons (+Ions) ), Sector Avg
-
E2 LEFS150 (Low Energy Foil Spectrometer; 0.062-0.102 MeV Electrons (+Ions) ), Sector Avg
-
E3 LEFS150 (Low Energy Foil Spectrometer; 0.102-0.175 MeV Electrons (+Ions) ), Sector Avg
-
E4 LEFS150 (Low Energy Foil Spectrometer; 0.175-0.312 MeV Electrons (+Ions) ), Sector Avg
-
FP5 LEFS150 (Low Energy Foil Spectrometer; 0.540-0.765 MeV Ions), Sector Avg
-
FP6 LEFS150 (Low Energy Foil Spectrometer; 0.765-1.22 MeV Ions), Sector Avg
-
FP7 LEFS150 (Low Energy Foil Spectrometer; 1.22-4.94 MeV Ions), Sector Avg
-
E1 LEFS150 (Low Energy Foil Spectrometer; 0.045-0.062 MeV Electrons (+Ions) ), Uncertainty
-
E2 LEFS150 (Low Energy Foil Spectrometer; 0.062-0.102 MeV Electrons (+Ions) ), Uncertainty
-
E3 LEFS150 (Low Energy Foil Spectrometer; 0.102-0.175 MeV Electrons (+Ions) ), Uncertainty
-
E4 LEFS150 (Low Energy Foil Spectrometer; 0.175-0.312 MeV Electrons (+Ions) ), Uncertainty
-
FP5 LEFS150 (Low Energy Foil Spectrometer; 0.540-0.765 MeV Ions), Uncertainty
-
FP6 LEFS150 (Low Energy Foil Spectrometer; 0.765-1.22 MeV Ions), Uncertainty
-
FP7 LEFS150 (Low Energy Foil Spectrometer; 1.22-4.94 MeV Ions), Uncertainty
-
K0 - ACE EPAM 5-Minute Key Parameters - R. Gold (JHU Applied Physics Laboratory) K1 - ACE EPAM 1-Hour Key Parameters - R. Gold (JHU Applied Physics Laboratory)
-
OMNI Combined, Definitive, 1AU 1minute IMF and Plasma data - J.H. King, N. Papatashvilli (AdnetSystems, NASA GSFC)
-
OMNI ID code for IMF source spacecraft (see OMNI documentation link for codes)
-
OMNI ID code for IP plasma source spacecraft (see OMNI documentation link for codes)
-
Number of fine time scale points in IMF averages
-
Number of fine time scale points in plasma averages
-
Percent interpolated
-
Timeshift (seconds)
-
RMS Timeshift (seconds)
-
RMS, Phase front normal (nT)
-
Time between observations (seconds)
-
Magnitude of avg. field vector (nT) (last currently-available OMNI B-field data Dec 31, 2012)
-
Bx (nT), GSE
-
By (nT), GSE
-
Bz (nT), GSE
-
By (nT), GSM, determined from post-shift GSE components
-
Bz (nT), GSM, determined from post-shift GSE components
-
RMS SD B scalar (nT)
-
RMS SD field vector (nT)
-
Flow Speed (km/s), GSE
-
Vx Velocity (km/s), GSE
-
Vy Velocity (km/s), GSE
-
Vz Velocity (km/s), GSE
-
Proton density (n/cc) (last currently-available OMNI plasma data Dec 31, 2012)
-
Temperature (K)
-
Flow pressure (nPa)
-
Electric Field (mV/m)
-
Plasma beta
-
Alfven mach number
-
1AU IP Magnetosonic mach number
-
X s/c (Re), GSE
-
Y s/c (Re), GSE
-
Z s/c (Re), GSE
-
Bow Shock Nose (Re) location, X, GSE
-
Bow Shock Nose (Re) location, Y, GSE
-
Bow Shock Nose (Re) location, Z, GSE
-
AE - 1-minute AE-index, from WDC Kyoto (95/001-12/366)
-
AL - 1-minute AL-index, from WDC Kyoto (95/001-12/366)
-
AU - 1-minute AU-index,from WDC Kyoto (95/001-12/366)
-
SYM/D - 1-minute SYM/D index,from WDC Kyoto (95/001-12/366)
-
SYM/H - 1-minute SYM/H index,from WDC Kyoto (95/001-12/366)
-
ASY/D - 1-minute ASY/D index,from WDC Kyoto (95/001-12/366)
-
ASY/H - 1-minute ASY/H index,from WDC Kyoto (95/001-12/366)
-
PC - 1-minute Polar Cap index (North, Thule station), from Danish Meteorological Institute (Final 95/001-08/366, Preliminary 09/001-12/366)
-
OMNI Combined, Definitive, 1AU 5minute IMF and Plasma data - J.H. King, N. Papatashvilli (AdnetSystems, NASA GSFC) OMNI Combined, Definitive, 1AU Hourly IMF, Plasma, Energetic Proton Fluxes, and Solar and Magnetic Indices - J.H. King, N. Papatashvilli (ADNET, NASA GSFC)
-
OMNI ID code for IMF source spacecraft (see OMNI documentation link for codes)
-
OMNI ID code for IP plasma source spacecraft (see OMNI documentation link for codes)
-
Number of fine time scale points in IMF averages
-
Number of fine time scale points in plasma averages
-
Percent interpolated
-
Timeshift (seconds)
-
RMS Timeshift (seconds)
-
Time between observations (seconds)
-
Magnitude of avg. field vector (nT) (last currently-available OMNI B-field data Dec 31, 2012)
-
Bx (nT), GSE
-
By (nT), GSE
-
Bz (nT), GSE
-
By (nT), GSM, determined from post-shift GSE components
-
Bz (nT), GSM, determined from post-shift GSE components
-
RMS SD B scalar (nT)
-
RMS SD field vector (nT)
-
Flow Speed (km/s), GSE
-
Vx Velocity (km/s), GSE
-
Vy Velocity (km/s), GSE
-
Vz Velocity (km/s), GSE
-
Proton density (n/cc) (last currently-available OMNI plasma data Dec 31, 2012)
-
Temperature (K)
-
Flow pressure (nPa)
-
Electric Field (mV/m)
-
Plasma beta
-
Alfven mach number
-
1AU IP Magnetosonic mach number
-
X s/c (Re), GSE
-
Y s/c (Re), GSE
-
Z s/c (Re), GSE
-
Bow Shock Nose (Re) location, X, GSE
-
Bow Shock Nose (Re) location, Y, GSE
-
Bow Shock Nose (Re) location, Z, GSE
-
AE - 5-minute AE-index, from WDC Kyoto (95/001-12/366)
-
AL - 5-minute AL-index, from WDC Kyoto (95/001-12/366)
-
AU - 5-minute AU-index,from WDC Kyoto (95/001-12/366)
-
SYM/D - 5-minute SYM/D index,from WDC Kyoto (95/001-12/366)
-
SYM/H - 5-minute SYM/H index,from WDC Kyoto (95/001-12/366)
-
ASY/D - 5-minute ASY/D index,from WDC Kyoto (95/001-12/366)
-
ASY/H - 5-minute ASY/H index,from WDC Kyoto (95/001-12/366)
-
PC - 5-minute Polar Cap index (North, Thule station), from Danish Meteorological Institute (Final 95/001-08/366, Preliminary 09/001-12/366)
-
Proton flux >10 MeV (1/(SQcm-ster-s)) (all fluxes from GOES 1995/001 - 2012/366)
-
Proton flux >30 MeV (1/(SQcm-ster-s))
-
Proton flux >60 MeV (1/(SQcm-ster-s))
-
Bartels Rotation Number
-
OMNI ID code for IMF source spacecraft (see OMNI documentation link for codes)
-
OMNI ID code for IP plasma source spacecraft (see OMNI documentation link for codes)
-
# fine time scale IMF points
-
# fine time scale plasma points
-
1AU IP Average B Field Magnitude, nT, (last currently-available OMNI B-field data Dec 31, 2012)
-
1AU IP Magnitude of average field vector (nT)
-
1AU IP Latitude/Theta of average B vector (deg)
-
1AU IP Longitude/Phi of average B vector (deg)
-
1AU IP Bx (nT), GSE
-
1AU IP By (nT), GSE
-
1AU IP Bz (nT), GSE
-
1AU IP By (nT), GSM
-
1AU IP Bz (nT), GSM
-
RMS deviation of average B magnitude (nT)
-
RMS deviation of magnitude of the average vector field (nT)
-
RMS deviation Bx (nT), GSE
-
RMS deviation By (nT), GSE
-
RMS deviation Bz (nT), GSE
-
1AU IP Plasma Temperature, deg K, (last currently-available OMNI plasma data Jan 30, 2013)
-
1AU IP Ion number density (per cc)
-
1AU IP plasma flow speed (km/s)
-
1AU IP plasma flow direction longitude (deg), phi
-
1AU IP plasma flow direction latitude (deg), theta
-
1AU IP Alpha/proton ratio
-
1AU IP Flow pressure (nPa)
-
RMS deviation of plasma temperature (deg k)
-
RMS deviation of ion number density (per cc)
-
RMS deviation in plasma flow velocity (km/s)
-
RMS deviation in plasma flow direction longitude (deg), phi
-
RMS deviation in plasma flow direction latitude (deg), theta
-
RMS deviation alpha/proton ratio
-
1AU IP Electric Field (mV/m)
-
1AU IP Plasma beta
-
1AU IP Alfven mach number
-
1AU IP Magnetosonic mach number
-
1AU Proton flux > 1 MeV, 1/(SQcm-ster-s), (last currently-available OMNI proton fluxes 2013 Jan 30)
-
1AU Proton flux >2 MeV (1/(SQcm-ster-s))
-
1AU Proton flux >4 MeV (1/(SQcm-ster-s))
-
1AU Proton flux >10 MeV (1/(SQcm-ster-s))
-
1AU Proton flux >30 MeV (1/(SQcm-ster-s))
-
1AU Proton flux >60 MeV (1/(SQcm-ster-s))
-
Magnetospheric Contamination of 1AU Proton Flux code (6=No,<=5 see OMNI documentation)
-
Rz - Daily sunspot number, from NGDC (63/001-12/366)
-
F10.7 - Daily 10.7 cm solar radio flux, units: 10**(-22) Joules/second/square-meter/Hertz, from NGDC (63/001-12/366),
-
Kp - 3-hour Kp*10 (Kp=1-,1,1+ corresponds to 7,10,13), fromNGDC (63/001-12/366)
-
Dst - 1-hour Dst index (63/001-03/365), Provisional Dst (04/001-07/365), Quick-look Dst (07/001-13/025), from WDC Kyoto
-
AE - 1-hour AE-index (63/001-88/182), Provisional (89/060-12/335), from WDC Kyoto
-
ap - 3-hour ap-index (63/001-12/366), from NGDC
-
AL - 1-hour AL-index, from WDC Kyoto (63/001-88/182)
-
AU - 1-hour AU-index,from WDC Kyoto (63/001-88/182)
-
PC - 1-hour Polar Cap index (North, Thule station), from NGDC (Final 75/001-07/365, Preliminary 08/001-12/366)
-
H0 - ACE Magnetic Field 16-Second Level 2 Data - N. Ness (Bartol Research Institute) H1 - ACE Magnetic Field 4-Minute Level 2 Data - N. Ness (Bartol Research Institute) H2 - ACE Magnetic Field 1-Hour Level 2 Data - N. Ness (Bartol Research Institute) H3 - ACE Magnetic Field 1-Second Level 2 Data - N. Ness (Bartol Research Institute)
-
ACE Magnetic Field 16-Second Key Parameters [PRELIM] - N. Ness (Bartol Research Institute) ACE Magnetic Field 5-Minute Key Parameters [PRELIM] - N. Ness (Bartol Research Institute) K2 - ACE Magnetic Field 1-Hour Key Parameters [PRELIM] - N. Ness (Bartol Research Institute)
-
ACE/SEPICA Solar Energetic Particle 1-Hour Level 2 Data - Eberhard Moebius (University of New Hampshire)
-
H, (0.650-0.860 MeV/nucleon)
-
H, (0.860-1.940 MeV/nucleon)
-
H, (1.940-3.070 MeV/nucleon)
-
H, (0.650-0.860 MeV/nucleon) uncertainty
-
H, (0.860-1.940 MeV/nucleon) uncertainty
-
H, (1.940-3.070 MeV/nucleon) uncertainty
-
He, (0.400-0.640 MeV/nucleon)
-
He, (0.640-0.880 MeV/nucleon)
-
He, (0.880-1.190 MeV/nucleon)
-
He plus Am241 cal src, (1.190-1.490 MeV/nucleon)
-
He, (1.490-1.920 MeV/nucleon)
-
He, (1.920-3.060 MeV/nucleon)
-
He, (3.060-6.000 MeV/nucleon)
-
He, (0.880-1.920 MeV/nucleon)
-
He plus Am241 cal src, (1.150-1.500 MeV/nucleon)
-
He, (0.400-0.640 MeV/nucleon) uncertainty
-
He, (0.640-0.880 MeV/nucleon) uncertainty
-
He, (0.880-1.190 MeV/nucleon) uncertainty
-
He plus Am241 cal src, (1.190-1.490 MeV/nucleon) uncertainty
-
He, (1.490-1.920 MeV/nucleon) uncertainty
-
He, (1.920-3.060 MeV/nucleon) uncertainty
-
He, (3.060-6.000 MeV/nucleon) uncertainty
-
He, (0.880-1.920 MeV/nucleon) uncertainty
-
He plus Am241 cal src, (1.150-1.500 MeV/nucleon) uncertainty
-
C, (0.330-0.440 MeV/nucleon)
-
C, (0.450-0.640 MeV/nucleon)
-
C, (0.640-0.860 MeV/nucleon)
-
C, (0.860-1.930 MeV/nucleon)
-
C, (01.93-3.060 MeV/nucleon)
-
C, (3.100-7.150 MeV/nucleon)
-
C, (7.150-11.750 MeV/nucleon)
-
C, (0.330-0.440 MeV/nucleon) uncertainty
-
C, (0.450-0.640 MeV/nucleon) uncertainty
-
C, (0.640-0.860 MeV/nucleon) uncertainty
-
C, (0.860-1.930 MeV/nucleon) uncertainty
-
C, (01.93-3.060 MeV/nucleon) uncertainty
-
C, (3.100-7.150 MeV/nucleon) uncertainty
-
C, (7.150-11.750 MeV/nucleon) uncertainty
-
N, (0.36-0.49 MeV/nucleon)
-
N, (0.49-1.74 MeV/nucleon)
-
N, (1.74-2.60 MeV/nucleon)
-
N, (2.60-3.46 MeV/nucleon)
-
N, (3.46-7.73 MeV/nucleon)
-
N, (7.73-12.28 MeV/nucleon)
-
N, (0.36-0.49 MeV/nucleon) uncertainty
-
N, (0.49-1.74 MeV/nucleon) uncertainty
-
N, (1.74-2.60 MeV/nucleon) uncertainty
-
N, (2.60-3.46 MeV/nucleon) uncertainty
-
N, (3.46-7.73 MeV/nucleon) uncertainty
-
N, (7.73-12.28 MeV/nucleon) uncertainty
-
O, (0.050-0.430 MeV/nucleon)
-
O, (0.430-0.650 MeV/nucleon)
-
O, (0.650-0.860 MeV/nucleon)
-
O, (0.860-1.930 MeV/nucleon)
-
O, (1.930-3.070 MeV/nucleon)
-
O, (3.080-7.190 MeV/nucleon)
-
O, (0.050-0.430 MeV/nucleon) uncertainty
-
O, (0.430-0.650 MeV/nucleon) uncertainty
-
O, (0.650-0.860 MeV/nucleon) uncertainty
-
O, (0.860-1.930 MeV/nucleon) uncertainty
-
O, (1.930-3.070 MeV/nucleon) uncertainty
-
O, (3.080-7.190 MeV/nucleon) uncertainty
-
Ne, (0.640-0.860 MeV/nucleon)
-
Ne, (0.860-1.940 MeV/nucleon)
-
Ne, (1.940-3.070 MeV/nucleon)
-
Ne, (3.070-7.190 MeV/nucleon)
-
Ne, (0.640-0.860 MeV/nucleon) uncertainty
-
Ne, (0.860-1.940 MeV/nucleon) uncertainty
-
Ne, (1.940-3.070 MeV/nucleon) uncertainty
-
Ne, (3.070-7.190 MeV/nucleon) uncertainty
-
Mg, (0.810-0.900 MeV/nucleon)
-
Mg, (0.900-1.920 MeV/nucleon)
-
Mg, (1.920-3.070 MeV/nucleon)
-
Mg, (3.070-6.020 MeV/nucleon)
-
Mg, (0.810-0.900 MeV/nucleon) uncertainty
-
Mg, (0.900-1.920 MeV/nucleon) uncertainty
-
Mg, (1.920-3.070 MeV/nucleon) uncertainty
-
Mg, (3.070-6.020 MeV/nucleon) uncertainty
-
Si, (0.760-0.890 MeV/nucleon)
-
Si, (0.890-1.930 MeV/nucleon)
-
Si, (1.930-3.070 MeV/nucleon)
-
Si, (3.070-5.240 MeV/nucleon)
-
Si, (0.760-0.890 MeV/nucleon) uncertainty
-
Si, (0.890-1.930 MeV/nucleon) uncertainty
-
Si, (1.930-3.070 MeV/nucleon) uncertainty
-
Si, (3.070-5.240 MeV/nucleon) uncertainty
-
Fe, (0.120-0.430 MeV/nucleon)
-
Fe, (0.430-0.640 MeV/nucleon)
-
Fe, (0.650-0.860 MeV/nucleon)
-
Fe, (0.860-1.930 MeV/nucleon)
-
Fe, (1.930-3.070 MeV/nucleon)
-
Fe, (0.120-0.430 MeV/nucleon) uncertainty
-
Fe, (0.430-0.640 MeV/nucleon) uncertainty
-
Fe, (0.650-0.860 MeV/nucleon) uncertainty
-
Fe, (0.860-1.930 MeV/nucleon) uncertainty
-
Fe, (1.930-3.070 MeV/nucleon) uncertainty
-
ACE/SIS Solar Isotope Spectrometer 1-Hour Level 2 Data - E. C. Stone (California Institute of Technology) ACE/SIS Solar Isotope Spectrometer 256-sec Level 2 Data - E. C. Stone (California Institute of Technology) K0 - ACE SIS 1-Hour Key Parameters - E. C. Stone (California Institute of Technology)
-
He intensity, at 8 energies 3.4-41.2 MeV/nuc
-
C intensity, at 8 energies 6.4-76.3 MeV/nuc
-
N intensity, at 8 energies 6.9-83.3 MeV/nuc
-
O intensity, at 8 energies 7.3-89.8 MeV/nuc
-
Ne intensity, at 8 energies 8.1-101.8 MeV/nuc
-
Na intensity, at 8 energies 8.1-104.8 MeV/nuc
-
Mg intensity, at 8 energies 8.7-112.9 MeV/nuc
-
Al intensity, at 8 energies 8.7-115.6 MeV/nuc
-
Si intensity, at 8 energies 9.2-123.2 MeV/nuc
-
S intensity, at 8 energies 9.7-132.9 MeV/nuc
-
Ar intensity, at 8 energies 10.1-144.3 MeV/nuc
-
Ca intensity, at 8 energies 10.5-150.9 MeV/nuc
-
Fe intensity, at 8 energies 10.7-167.7 MeV/nuc
-
Ni intensity, at 8 energies 11.2-179.0 MeV/nuc
-
He counts, at 8 energies 3.4-41.2 MeV/nuc
-
C counts, at 8 energies 6.4-76.3 MeV/nuc
-
N counts, at 8 energies 6.9-83.3 MeV/nuc
-
O counts, at 8 energies 7.3-89.8 MeV/nuc
-
Ne counts, at 8 energies 8.1-101.8 MeV/nuc
-
Na counts, at 8 energies 8.1-104.8 MeV/nuc
-
Mg counts, at 8 energies 8.7-112.9 MeV/nuc
-
Al counts, at 8 energies 8.7-115.6 MeV/nuc
-
Si counts, at 8 energies 9.2-123.2 MeV/nuc
-
S counts, at 8 energies 9.7-132.9 MeV/nuc
-
Ar counts, at 8 energies 10.1-144.3 MeV/nuc
-
Ca counts, at 8 energies 10.5-150.9 MeV/nuc
-
Fe counts, at 8 energies 10.7-167.7 MeV/nuc
-
Ni counts, at 8 energies 11.2-179.0 MeV/nuc
-
He intensity, at 8 energies 3.4-41.2 MeV/nuc
-
C intensity, at 8 energies 6.4-76.3 MeV/nuc
-
N intensity, at 8 energies 6.9-83.3 MeV/nuc
-
O intensity, at 8 energies 7.3-89.8 MeV/nuc
-
Ne intensity, at 8 energies 8.1-101.8 MeV/nuc
-
Na intensity, at 8 energies 8.1-104.8 MeV/nuc
-
Mg intensity, at 8 energies 8.7-112.9 MeV/nuc
-
Al intensity, at 8 energies 8.7-115.6 MeV/nuc
-
Si intensity, at 8 energies 9.2-123.2 MeV/nuc
-
S intensity, at 8 energies 9.7-132.9 MeV/nuc
-
Ar intensity, at 8 energies 10.1-144.3 MeV/nuc
-
Ca intensity, at 8 energies 10.5-150.9 MeV/nuc
-
Fe intensity, at 8 energies 10.7-167.7 MeV/nuc
-
Ni intensity, at 8 energies 11.2-179.0 MeV/nuc
-
He counts, at 8 energies 3.4-41.2 MeV/nuc
-
C counts, at 8 energies 6.4-76.3 MeV/nuc
-
N counts, at 8 energies 6.9-83.3 MeV/nuc
-
O counts, at 8 energies 7.3-89.8 MeV/nuc
-
Ne counts, at 8 energies 8.1-101.8 MeV/nuc
-
Na counts, at 8 energies 8.1-104.8 MeV/nuc
-
Mg counts, at 8 energies 8.7-112.9 MeV/nuc
-
Al counts, at 8 energies 8.7-115.6 MeV/nuc
-
Si counts, at 8 energies 9.2-123.2 MeV/nuc
-
S counts, at 8 energies 9.7-132.9 MeV/nuc
-
Ar counts, at 8 energies 10.1-144.3 MeV/nuc
-
Ca counts, at 8 energies 10.5-150.9 MeV/nuc
-
Fe counts, at 8 energies 10.7-167.7 MeV/nuc
-
Ni counts, at 8 energies 11.2-179.0 MeV/nuc
-
Proton Flux (E>10 MeV)
-
Proton Flux (E>30 MeV)
-
CNO Flux (7-10 MeV/n)
-
CNO Flux (10-15 MeV/n)
-
Z>=10 flux (9-21 MeV/n)
-
ACE GSE Positions @ 12 min resolution - SSC/SSCWeb ( NASA's GSFC)
-
K0 - ACE Solar Wind Experiment 5-Minute Key Parameters [PRELIM] - D. J. McComas (Southwest Research Institute) K1 - ACE Solar Wind Experiment 1-Hour Key Parameters [PRELIM] - D. J. McComas (Southwest Research Institute)
-
ACE/SWEPAM Solar Wind Experiment 1-Hour Level 2 Data - D. J. McComas (SWRI) ACE/SWEPAM Solar Wind Experiment 64-Second Level 2 Data - D. J. McComas (SWRI)
-
Solar Wind Proton Number Density, scalar
-
Solar Wind Bulk Speed
-
radial component of the proton temperature
-
alpha to proton density ratio
-
Solar Wind Velocity in GSE coord., 3 components
-
Solar Wind Velocity in RTN coord., 3 components
-
Solar Wind Velocity in GSM coord., 3 comp.
-
ACE s/c position, 3 comp. in GSE coord.
-
ACE s/c position, 3 comp. in GSM coord.
-
Solar Wind Proton Number Density, scalar
-
Solar Wind Bulk Speed
-
radial component of the proton temperature
-
alpha to proton density ratio
-
Solar Wind Velocity in GSE coord., 3 components
-
Solar Wind Velocity in RTN coord., 3 components
-
Solar Wind Velocity in GSM coord., 3 comp.
-
ACE s/c position, 3 comp. in GSE coord.
-
ACE s/c position, 3 comp. in GSM coord.
-
ACE/SWICS Solar Wind 1-Hour Level 2 Data - G. Gloeckler (University of Maryland) ACE/SWICS Solar Wind 2-Hour Level 2 Data - G. Gloeckler (University of Maryland) ACE/SWICS Solar Wind 2-Hour Level 2 Q-state distributions - G. Gloeckler (University of Maryland) ACE/SWICS Solar Wind Daily-averaged Level 2 Data - G. Gloeckler (University of Maryland)
-
Solar Wind Helium++ Number Density, scalar
-
Solar Wind Helium++ speed, scalar
-
Solar Wind Carbon+5 speed, scalar
-
Solar Wind Oxygen+6 speed, scalar
-
Solar Wind Iron+10 speed, scalar
-
Solar Wind Helium++ Thermal speed, scalar
-
Solar Wind Carbon+5 Thermal speed, scalar
-
Solar Wind Oxygen+6 Thermal speed, scalar
-
Solar Wind Iron+10 Thermal speed, scalar
-
Quality flag for the helium speed and density data
-
Quality flag for the C+5 speed and thermal speed data
-
Quality flag for the O+6 speed and thermal speed data
-
Quality flag for the Fe+10 speed and thermal speed data
-
C+6/C+5 Solar Wind charge_state Ratio
-
O+7/O+6 Solar Wind charge_state Ratio
-
Carbon Solar Wind average charge state
-
Oxygen Solar Wind average charge state
-
Iron Solar Wind average charge state
-
Quality flag for C+6/C+5 Solar Wind charge_state Ratio
-
Quality flag for O+7/O+6 Solar Wind charge_state Ratio
-
Quality flag for Carbon Solar Wind average charge state
-
Quality flag for Oxygen Solar Wind average charge state
-
Quality flag for Iron Solar Wind average charge state
-
Fe/O Solar Wind elemental abundance ratio
-
Quality Flag for Fe/O Solar Wind elemental abundance ratio
-
Solar wind type: 0 - streamer wind, 1 - coronal hole, 2 - CME
-
Solar Wind Helium++ Number Density, scalar
-
Solar Wind Helium++ speed, scalar
-
Solar Wind Carbon+5 speed, scalar
-
Solar Wind Oxygen+6 speed, scalar
-
Solar Wind Iron+10 speed, scalar
-
Solar Wind Helium++ Thermal speed, scalar
-
Solar Wind Carbon+5 Thermal speed, scalar
-
Solar Wind Oxygen+6 Thermal speed, scalar
-
Solar Wind Iron+10 Thermal speed, scalar
-
Quality flag for the helium speed and density data
-
Quality flag for the C+5 speed and thermal speed data
-
Quality flag for the O+6 speed and thermal speed data
-
Quality flag for the Fe+10 speed and thermal speed data
-
C+6/C+5 Solar Wind charge_state Ratio
-
O+7/O+6 Solar Wind charge_state Ratio
-
Carbon Solar Wind average charge state
-
Oxygen Solar Wind average charge state
-
Iron Solar Wind average charge state
-
Quality flag for C+6/C+5 Solar Wind charge_state Ratio
-
Quality flag for O+7/O+6 Solar Wind charge_state Ratio
-
Quality flag for Carbon Solar Wind average charge state
-
Quality flag for Oxygen Solar Wind average charge state
-
Quality flag for Iron Solar Wind average charge state
-
Fe/O Solar Wind elemental abundance ratio
-
Quality Flag for Fe/O Solar Wind elemental abundance ratio
-
He/O Solar Wind elemental abundance ratio
-
Quality Flag for He/O Solar Wind elemental abundance ratio
-
C/O Solar Wind elemental abundance ratio
-
Quality Flag for C/O Solar Wind elemental abundance ratio
-
Ne/O Solar Wind elemental abundance ratio
-
Quality Flag for Ne/O Solar Wind elemental abundance ratio
-
Mg/O Solar Wind elemental abundance ratio
-
Quality Flag for Mg/O Solar Wind elemental abundance ratio
-
Si/O Solar Wind elemental abundance ratio
-
Quality Flag for Si/O Solar Wind elemental abundance ratio
-
Solar wind type: 0 - streamer wind, 1 - coronal hole, 2 - CME
-
Carbon Solar Wind charge state distribution
-
Quality Flags for Carbon charge state distribution
-
Oxygen Solar Wind charge state distribution
-
Quality Flags for Oxygen charge state distribution
-
Neon Solar Wind charge state distribution
-
Quality Flags for Neon charge state distribution
-
Magnesium Solar Wind charge state distribution
-
Quality Flags for Magnesium charge state distribution
-
Silicon Solar Wind charge state distribution
-
Quality Flags for Silicon charge state distribution
-
Iron Solar Wind charge state distribution
-
Quality Flags for Iron charge state distribution
-
Solar Wind Helium++ speed, scalar
-
C+6/C+5 Solar Wind charge_state Ratio
-
O+7/O+6 Solar Wind charge_state Ratio
-
Carbon Solar Wind average charge state
-
Oxygen Solar Wind average charge state
-
Iron Solar Wind average charge state
-
Quality flag for C+6/C+5 Solar Wind charge_state Ratio
-
Quality flag for O+7/O+6 Solar Wind charge_state Ratio
-
Quality flag for Carbon Solar Wind average charge state
-
Quality flag for Oxygen Solar Wind average charge state
-
Quality flag for Iron Solar Wind average charge state
-
3He/4He Solar Wind isotopic abundance ratio
-
Quality Flag for 3He/4He Solar Wind isotopic abundance ratio
-
He/O Solar Wind elemental abundance ratio
-
Quality Flag for He/O Solar Wind elemental abundance ratio
-
C/O Solar Wind elemental abundance ratio
-
Quality Flag for C/O Solar Wind elemental abundance ratio
-
N/O Solar Wind elemental abundance ratio
-
Quality Flag for N/O Solar Wind elemental abundance ratio
-
Ne/O Solar Wind elemental abundance ratio
-
Quality Flag for Ne/O Solar Wind elemental abundance ratio
-
Mg/O Solar Wind elemental abundance ratio
-
Quality Flag for Mg/O Solar Wind elemental abundance ratio
-
Si/O Solar Wind elemental abundance ratio
-
Quality Flag for Si/O Solar Wind elemental abundance ratio
-
S/O Solar Wind elemental abundance ratio
-
Quality Flag for S/O Solar Wind elemental abundance ratio
-
Fe/O Solar Wind elemental abundance ratio
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Quality Flag for Fe/O Solar Wind elemental abundance ratio
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Solar wind type: 0 - streamer wind, 1 - coronal hole, 2 - CME
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ACE/ULEIS Solar Suprathermal and Energetic Particle Intensities 1-Hour Level 2 Data - G. Mason (University of Maryland)
-
H, (0.160-0.320 MeV/nucleon)
-
H, (0.320-0.640 MeV/nucleon)
-
H, (0.640-1.280 MeV/nucleon)
-
H, (1.280-2.560 MeV/nucleon)
-
H, (2.560-7.240 MeV/nucleon)
-
H, (0.160-0.320 MeV/nucleon) uncertainty
-
H, (0.320-0.640 MeV/nucleon) uncertainty
-
H, (0.640-1.280 MeV/nucleon) uncertainty
-
H, (1.280-2.560 MeV/nucleon) uncertainty
-
H, (2.560-7.240 MeV/nucleon) uncertainty
-
He3, (0.072-0.160 MeV/nucleon)
-
He3, (0.160-0.320 MeV/nucleon)
-
He3, (0.320-0.640 MeV/nucleon)
-
He3, (0.640-1.280 MeV/nucleon)
-
He3, (1.280-3.620 MeV/nucleon)
-
He3, (3.620-7.240 MeV/nucleon)
-
He3, (7.240-10.20 MeV/nucleon)
-
He3, (0.072-0.160 MeV/nucleon) uncertainty
-
He3, (0.160-0.320 MeV/nucleon) uncertainty
-
He3, (0.320-0.640 MeV/nucleon) uncertainty
-
He3, (0.640-1.280 MeV/nucleon) uncertainty
-
He3, (1.280-3.620 MeV/nucleon) uncertainty
-
He3, (3.620-7.240 MeV/nucleon) uncertainty
-
He3, (7.240-10.20 MeV/nucleon) uncertainty
-
He4, (0.063-0.080 MeV/nucleon)
-
He4, (0.080-0.113 MeV/nucleon)
-
He4, (0.113-0.160 MeV/nucleon)
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He4, (0.175-0.226 MeV/nucleon)
-
He4, (0.226-0.320 MeV/nucleon)
-
He4, (0.320-0.453 MeV/nucleon)
-
He4, (0.453-0.640 MeV/nucleon)
-
He4, (0.640-0.905 MeV/nucleon)
-
He4, (0.905-1.280 MeV/nucleon)
-
He4, (1.280-1.810 MeV/nucleon)
-
He4, (1.810-2.560 MeV/nucleon)
-
He4, (2.560-3.620 MeV/nucleon)
-
He4, (3.620-5.120 MeV/nucleon)
-
He4, (5.120-7.240 MeV/nucleon)
-
He4, (7.240-8.670 MeV/nucleon)
-
He4, (0.063-0.080 MeV/nucleon) uncertainty
-
He4, (0.080-0.113 MeV/nucleon) uncertainty
-
He4, (0.113-0.160 MeV/nucleon) uncertainty
-
He4, (0.175-0.226 MeV/nucleon) uncertainty
-
He4, (0.226-0.320 MeV/nucleon) uncertainty
-
He4, (0.320-0.453 MeV/nucleon) uncertainty
-
He4, (0.453-0.640 MeV/nucleon) uncertainty
-
He4, (0.640-0.905 MeV/nucleon) uncertainty
-
He4, (0.905-1.280 MeV/nucleon) uncertainty
-
He4, (1.280-1.810 MeV/nucleon) uncertainty
-
He4, (1.810-2.560 MeV/nucleon) uncertainty
-
He4, (2.560-3.620 MeV/nucleon) uncertainty
-
He4, (3.620-5.120 MeV/nucleon) uncertainty
-
He4, (5.120-7.240 MeV/nucleon) uncertainty
-
He4, (7.240-8.670 MeV/nucleon) uncertainty
-
C, (0.041-0.111 MeV/nucleon)
-
C, (0.111-0.160 MeV/nucleon)
-
C, (0.160-0.320 MeV/nucleon)
-
C, (0.320-0.640 MeV/nucleon)
-
C, (0.640-1.280 MeV/nucleon)
-
C, (1.280-2.560 MeV/nucleon)
-
C, (2.560-5.120 MeV/nucleon)
-
C, (5.120-10.20 MeV/nucleon)
-
C, (10.20-14.00 MeV/nucleon)
-
C, (0.041-0.111 MeV/nucleon) uncertainty
-
C, (0.111-0.160 MeV/nucleon) uncertainty
-
C, (0.160-0.320 MeV/nucleon) uncertainty
-
C, (0.320-0.640 MeV/nucleon) uncertainty
-
C, (0.640-1.280 MeV/nucleon) uncertainty
-
C, (1.280-2.560 MeV/nucleon) uncertainty
-
C, (2.560-5.120 MeV/nucleon) uncertainty
-
C, (5.120-10.20 MeV/nucleon) uncertainty
-
C, (10.20-14.00 MeV/nucleon) uncertainty
-
O, (0.040-0.090 MeV/nucleon)
-
O, (0.090-0.160 MeV/nucleon)
-
O, (0.160-0.320 MeV/nucleon)
-
O, (0.320-0.640 MeV/nucleon)
-
O, (0.640-1.280 MeV/nucleon)
-
O, (1.280-2.560 MeV/nucleon)
-
O, (2.560-5.120 MeV/nucleon)
-
O, (5.120-10.40 MeV/nucleon)
-
O, (0.040-0.090 MeV/nucleon) uncertainty
-
O, (0.090-0.160 MeV/nucleon) uncertainty
-
O, (0.160-0.320 MeV/nucleon) uncertainty
-
O, (0.320-0.640 MeV/nucleon) uncertainty
-
O, (0.640-1.280 MeV/nucleon) uncertainty
-
O, (1.280-2.560 MeV/nucleon) uncertainty
-
O, (2.560-5.120 MeV/nucleon) uncertainty
-
O, (5.120-10.40 MeV/nucleon) uncertainty
-
Ne_S, (0.061-0.080 MeV/nucleon)
-
Ne_S, (0.080-0.160 MeV/nucleon)
-
Ne_S, (0.160-0.320 MeV/nucleon)
-
Ne_S, (0.320-0.640 MeV/nucleon)
-
Ne_S, (0.640-1.280 MeV/nucleon)
-
Ne_S, (1.280-2.560 MeV/nucleon)
-
Ne_S, (2.560-7.040 MeV/nucleon)
-
Ne_S, (0.061-0.080 MeV/nucleon) uncertainty
-
Ne_S, (0.080-0.160 MeV/nucleon) uncertainty
-
Ne_S, (0.160-0.320 MeV/nucleon) uncertainty
-
Ne_S, (0.320-0.640 MeV/nucleon) uncertainty
-
Ne_S, (0.640-1.280 MeV/nucleon) uncertainty
-
Ne_S, (1.280-2.560 MeV/nucleon) uncertainty
-
Ne_S, (2.560-7.040 MeV/nucleon) uncertainty
-
Fe, (0.035-0.040 MeV/nucleon)
-
Fe, (0.040-0.080 MeV/nucleon)
-
Fe, (0.080-0.160 MeV/nucleon)
-
Fe, (0.160-0.320 MeV/nucleon)
-
Fe, (0.320-0.640 MeV/nucleon)
-
Fe, (0.640-0.905 MeV/nucleon)
-
Fe, (0.905-1.280 MeV/nucleon)
-
Fe, (1.280-1.810 MeV/nucleon)
-
Fe, (1.810-3.070 MeV/nucleon)
-
Fe, (0.035-0.040 MeV/nucleon) uncertainty
-
Fe, (0.040-0.080 MeV/nucleon) uncertainty
-
Fe, (0.080-0.160 MeV/nucleon) uncertainty
-
Fe, (0.160-0.320 MeV/nucleon) uncertainty
-
Fe, (0.320-0.640 MeV/nucleon) uncertainty
-
Fe, (0.640-0.905 MeV/nucleon) uncertainty
-
Fe, (0.905-1.280 MeV/nucleon) uncertainty
-
Fe, (1.280-1.810 MeV/nucleon) uncertainty
-
Fe, (1.810-3.070 MeV/nucleon) uncertainty
-
OMNI Combined merged hourly magnetic field, plasma and ephermis data - J.H. King, N. Papatashvilli (AdnetSystems, NASA GSFC)
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L1 L2 SSC
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Probe state file, contains position, attitude, sun pulse data - V. Angelopoulos (UCB, NASA NAS5-02099) Probe state file, contains position, attitude, sun pulse data - V. Angelopoulos (UCB, NASA NAS5-02099)
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Probe Electric Field Instrument and Search Coil Magnetometer Instrument, Digital Fields Board- digitally computed Filter Bank spectra and E12 peak and average in HF band. - V. Angelopoulos, J. W. Bonnell & F. S. Mozer; A. Roux and R. E. Ergun (UCB; CETP and LASP respectively, NASA NAS5-02099) Probe Electric Field Instrument and Search Coil Magnetometer Instrument, Digital Fields Board- digitally computed Filter Bank spectra and E12 peak and average in HF band. - V. Angelopoulos, J. W. Bonnell & F. S. Mozer; A. Roux and R. E. Ergun (UCB; CETP and LASP respectively, NASA NAS5-02099) Spacecraft-collected fluxgate magnetometer, Decimated TeleMetry High, DSL, GSE and GSM coordinates - V. Angelopoulos, U. Auster & K.H. Glassmeier and W. Baumjohann (UCB, TUBS and IWF respectively, NASA NAS5-02099) Spacecraft-collected fluxgate magnetometer, Decimated TeleMetry High, DSL, GSE and GSM coordinates - V. Angelopoulos, U. Auster & K.H. Glassmeier and W. Baumjohann (UCB, TUBS and IWF respectively, NASA NAS5-02099) Spacecraft-collected search-coil magnetometer (SCM) Magnetic field - V. Angelopoulos, A. Roux and O. LeContel (UCB, LPP NASA NAS5-02099) Spacecraft-collected search-coil magnetometer (SCM) Magnetic field - V. Angelopoulos, A. Roux and O. LeContel (UCB, LPP NASA NAS5-02099) THEMIS-B (P1/ARTEMIS-P1): On Board Fast Fourier Transform (FFT) power spectra of Electric (EFI) and Magnetic (SCM) field, for particle and wave burst survey modes. - V. Angelopoulos (UCB, NASA NAS5-02099) THEMIS-B (P1/ARTEMIS-P1): On Board spin fits of Electric (EFI) and Magnetic (FGM) field. - V. Angelopoulos (UCB, NASA NAS5-02099) THEMIS-B (P1/ARTEMIS-P1): Solid State Telescope (SST): Energy Flux spectrogram: Data includes: Electron/Ion Ground-Calculated Fluxes (30 keV - 300 keV). - V. Angelopoulos, D. Larson & R.P. Lin (UCB, NASA NAS5-02099) THEMIS-B (P1/ARTEMIS-P1): Electrostatic Analyzer (ESA): Electron/Ion Ground-Calculated Energy Fluxes (ions: 5 eV to 25 keV) electrons: 6 eV to 30 keV) and Moments (density, velocity, pressure, and temperature). Includes FULL, REDUCED and BURST modes. FULL: high angular resolution, low (few min) time resolution. REDUCED: degraded angular resolution, high (approx. 3 sec) time resolution. BURST: high angular resolution, high time resolution; only short bursts of data. Note that angular resolution affects moments since they are obtained integrating over the mode-specific angular distribution. - V. Angelopoulos, C.W. Carlson & J. McFadden (UCB, NASA NAS5-02099) THEMIS-B (P1/ARTEMIS-P1_): On Board moments: Electron/Ion moments density, flux, velocity, pressure and temperature. - V. Angelopoulos, C.W. Carlson & J. McFadden (UCB, NASA NAS5-02099) THEMIS-C (P2/ARTEMIS-P2): On Board Fast Fourier Transform (FFT) power spectra of Electric (EFI) and Magnetic (SCM) field, for particle and wave burst survey modes. - V. Angelopoulos (UCB, NASA NAS5-02099) THEMIS-C (P2/ARTEMIS-P2): On Board moments: Electron/Ion moments density, flux, velocity, pressure and temperature. - V. Angelopoulos, C.W. Carlson & J. McFadden (UCB, NASA NAS5-02099) THEMIS-C (P2/ARTEMIS-P2): On Board spin fits of Electric (EFI) and Magnetic (FGM) field. - V. Angelopoulos (UCB, NASA NAS5-02099) THEMIS-C (P2/ARTEMIS-P2): Solid State Telescope (SST): Energy Flux spectrogram: Data includes: Electron/Ion Ground-Calculated Fluxes (30 keV - 300 keV). - V. Angelopoulos, D. Larson & R.P. Lin (UCB, NASA NAS5-02099) THEMIS-C (P2/ARTEMIS-P2): Electrostatic Analyzer (ESA): Electron/Ion Ground-Calculated Energy Fluxes (ions: 5 eV to 25 keV) electrons: 6 eV to 30 keV) and Moments (density, velocity, pressure, and temperature). Includes FULL, REDUCED and BURST modes. FULL: high angular resolution, low (few min) time resolution. REDUCED: degraded angular resolution, high (approx. 3 sec) time resolution. BURST: high angular resolution, high time resolution; only short bursts of data. Note that angular resolution affects moments since they are obtained integrating over the mode-specific angular distribution. - V. Angelopoulos, C.W. Carlson & J. McFadden (UCB, NASA NAS5-02099) This data set contains ARTEMIS P1(THEMIS B) plasma parameters from the Electrostatic Analyzer (ESA), magnetic field data from the FGM instrument, and geocentric and selenocentric spacecraft position data. The data are at 96s or 384s resolution. For more details see ftp://omniweb.gsfc.nasa.gov/luna/themisb/merged/00readme_themisb.txt - N. Papatashvilli, J.H. King (SPDF, NASA/GSFC) This data set contains ARTEMIS P2(THEMIS C) plasma parameters from the Electrostatic Analyzer (ESA), magnetic field data from the FGM instrument, and geocentric and selenocentric spacecraft position data. The data are at 96s or 384s resolution. For more details see ftp://omniweb.gsfc.nasa.gov/luna/themisb/merged/00readme_themisc.txt - N. Papatashvilli, J.H. King (SPDF, NASA/GSFC)
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High-Frequency Filter peak and average values
-
Spectrogram FBK Potential, Sensor 1
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Spectrogram FBK Potential, Sensor 2
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Spectrogram FBK Potential, Sensor 3
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Spectrogram FBK Potential, Sensor 4
-
Spectrogram FBK Potential, Sensor 5
-
Spectrogram FBK Potential, Sensor 6
-
Spectrogram FBK E Field DC Component, Sensors 1&2 (spin plane)
-
Spectrogram FBK E Field DC Component, Sensors 3&4 (spin plane)
-
Spectrogram FBK E Field DC Component, Sensors 5&6 (axial)
-
Spectrogram FBK Search Coil Magnetometer (SCM) Axis 1
-
Spectrogram FBK Search Coil Magnetometer (SCM) Axis 2
-
Spectrogram FBK Search Coil Magnetometer (SCM) Axis 3
-
Spectrogram FBK E Field AC Component, Sensors 1&2 (spin plane)
-
Spectrogram FBK E Field AC Component, Sensors 3&4 (spin plane)
-
Spectrogram FBK E Field AC Component, Sensors 5&6 (axial)
-
High-Frequency Filter peak and average values
-
Spectrogram FBK Potential, Sensor 1
-
Spectrogram FBK Potential, Sensor 2
-
Spectrogram FBK Potential, Sensor 3
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Spectrogram FBK Potential, Sensor 4
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Spectrogram FBK Potential, Sensor 5
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Spectrogram FBK Potential, Sensor 6
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Spectrogram FBK E Field DC Component, Sensors 1&2 (spin plane)
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Spectrogram FBK E Field DC Component, Sensors 3&4 (spin plane)
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Spectrogram FBK E Field DC Component, Sensors 5&6 (axial)
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Spectrogram FBK Search Coil Magnetometer (SCM) Axis 1
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Spectrogram FBK Search Coil Magnetometer (SCM) Axis 2
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Spectrogram FBK Search Coil Magnetometer (SCM) Axis 3
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Spectrogram FBK E Field AC Component, Sensors 1&2 (spin plane)
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Spectrogram FBK E Field AC Component, Sensors 3&4 (spin plane)
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Spectrogram FBK E Field AC Component, Sensors 5&6 (axial)
-
FGS (spin-resolution/~3 sec) magnetic field B magnitude
-
FGS magnetic field B in XYZ GSE Coordinates
-
FGS magnetic field B in XYZ GSM Coordinates
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FGS magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
FGL (low-resolution/~0.25 sec) magnetic field B magnitude
-
FGL field B in XYZ GSE Coordinates
-
FGL magnetic field B in XYZ GSM Coordinates
-
FGL magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
FGL magnetic field B in XYZ SSL (Spinning Spacecraft) Coordinates
-
FGH (high-resolution/~0.008 sec) magnetic field B magnitude
-
FGH magnetic field B in XYZ GSE Coordinates
-
FGH magnetic field B in XYZ GSM Coordinates
-
FGH magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
FGH magnetic field B in XYZ SSL (Spinning Spacecraft) Coordinates
-
FGE (engineering mode) magnetic field B magnitude
-
FGE magnetic field B in XYZ GSE Coordinates
-
FGE magnetic field B in XYZ GSM Coordinates
-
FGE magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
FGE magnetic field B in XYZ SSL (Spinning Spacecraft) Coordinates
-
FGS (spin-resolution/~3 sec) magnetic field B magnitude
-
FGS magnetic field B in XYZ GSE Coordinates
-
FGS magnetic field B in XYZ GSM Coordinates
-
FGS magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
FGL (low-resolution/~0.25 sec) magnetic field B magnitude
-
FGL field B in XYZ GSE Coordinates
-
FGL magnetic field B in XYZ GSM Coordinates
-
FGL magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
FGL magnetic field B in XYZ SSL (Spinning Spacecraft) Coordinates
-
FGH (high-resolution/~0.008 sec) magnetic field B magnitude
-
FGH magnetic field B in XYZ GSE Coordinates
-
FGH magnetic field B in XYZ GSM Coordinates
-
FGH magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
FGH magnetic field B in XYZ SSL (Spinning Spacecraft) Coordinates
-
FGE (engineering mode) magnetic field B magnitude
-
FGE magnetic field B in XYZ GSE Coordinates
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FGE magnetic field B in XYZ GSM Coordinates
-
FGE magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
FGE magnetic field B in XYZ SSL (Spinning Spacecraft) Coordinates
-
SCF (fast-survey, 1/8 sec time resolution) SCM magnetic field B magnitude
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SCF (fast-survey, 1/8 sec time resolution) SCM magnetic field B in XYZ GSE Coordinates
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SCF (fast-survey, 1/8 sec time resolution) SCM magnetic field B in XYZ GSM Coordinates
-
SCF (fast-survey, 1/8 sec time resolution) SCM magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
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SCP (particle burst, 1/128 second time resolution) SCM magnetic field B magnitude
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SCP (particle burst, 1/128 second time resolution) SCM magnetic field B in XYZ GSE Coordinates
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SCP (particle burst, 1/128 second time resolution) SCM magnetic field B in XYZ GSM Coordinates
-
SCP (particle burst, 1/128 second time resolution) SCM magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
SCW (wave burst, 1/8192 second time resolution) SCM magnetic field B magnitude
-
SCW (wave burst, 1/8192 second time resolution) SCM magnetic field B in XYZ GSE Coordinates
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SCW (wave burst, 1/8192 second time resolution) SCM magnetic field B in XYZ GSM Coordinates
-
SCW (wave burst, 1/8192 second time resolution) SCM magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
SCF (fast-survey, 1/8 sec time resolution) SCM magnetic field B magnitude
-
SCF (fast-survey, 1/8 sec time resolution) SCM magnetic field B in XYZ GSE Coordinates
-
SCF (fast-survey, 1/8 sec time resolution) SCM magnetic field B in XYZ GSM Coordinates
-
SCF (fast-survey, 1/8 sec time resolution) SCM magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
SCP (particle burst, 1/128 second time resolution) SCM magnetic field B magnitude
-
SCP (particle burst, 1/128 second time resolution) SCM magnetic field B in XYZ GSE Coordinates
-
SCP (particle burst, 1/128 second time resolution) SCM magnetic field B in XYZ GSM Coordinates
-
SCP (particle burst, 1/128 second time resolution) SCM magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
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SCW (wave burst, 1/8192 second time resolution) SCM magnetic field B magnitude
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SCW (wave burst, 1/8192 second time resolution) SCM magnetic field B in XYZ GSE Coordinates
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SCW (wave burst, 1/8192 second time resolution) SCM magnetic field B in XYZ GSM Coordinates
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SCW (wave burst, 1/8192 second time resolution) SCM magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
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FFT Power Spectrum in Fast Survey, 16 frequencies for SCM delta-B (parallel to B)
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FFT Power Spectrum in Fast Survey, 16 frequencies for SCM delta-B (perp to B)
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FFT Power Spectrum in Fast Survey, 16 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
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FFT Power Spectrum in Fast Survey, 16 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
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FFT Power Spectrum in Fast Survey, 16 frequencies for E Field AC Component, Sensors 5&6 (axial)
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FFT Power Spectrum in Fast Survey, 16 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
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FFT Power Spectrum in Fast Survey, 16 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
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FFT Power Spectrum in Fast Survey, 16 frequencies for E Field DC Component, Sensors 5&6 (axial)
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FFT Power Spectrum in Fast Survey, 16 frequencies for EFI E (parallel to B)
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FFT Power Spectrum in Fast Survey, 16 frequencies for EFI E (perp to B)
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FFT Power Spectrum in Fast Survey, 16 frequencies for SCM, Axis 1
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FFT Power Spectrum in Fast Survey, 16 frequencies for SCM, Axis 1
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FFT Power Spectrum in Fast Survey, 16 frequencies for SCM, Axis 1
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FFT Power Spectrum in Fast Survey, 16 frequencies for EFI Potential, Sensor 1
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FFT Power Spectrum in Fast Survey, 16 frequencies for EFI Potential, Sensor 2
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FFT Power Spectrum in Fast Survey, 16 frequencies for EFI Potential, Sensor 3
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FFT Power Spectrum in Fast Survey, 16 frequencies for EFI Potential, Sensor 4
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FFT Power Spectrum in Fast Survey, 16 frequencies for EFI Potential, Sensor 5
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FFT Power Spectrum in Fast Survey, 16 frequencies for EFI Potential, Sensor 6
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FFT Power Spectrum in Fast Survey, 32 frequencies for SCM delta-B (parallel to B)
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FFT Power Spectrum in Fast Survey, 32 frequencies for SCM delta-B (perp to B)
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FFT Power Spectrum in Fast Survey, 32 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
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FFT Power Spectrum in Fast Survey, 32 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
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FFT Power Spectrum in Fast Survey, 32 frequencies for E Field AC Component, Sensors 5&6 (axial)
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FFT Power Spectrum in Fast Survey, 32 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
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FFT Power Spectrum in Fast Survey, 32 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
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FFT Power Spectrum in Fast Survey, 32 frequencies for E Field DC Component, Sensors 5&6 (axial)
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FFT Power Spectrum in Fast Survey, 32 frequencies for EFI E (parallel to B)
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FFT Power Spectrum in Fast Survey, 32 frequencies for EFI E (perp to B)
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FFT Power Spectrum in Fast Survey, 32 frequencies for SCM, Axis 1
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FFT Power Spectrum in Fast Survey, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI Potential, Sensor 1
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FFT Power Spectrum in Fast Survey, 32 frequencies for EFI Potential, Sensor 2
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FFT Power Spectrum in Fast Survey, 32 frequencies for EFI Potential, Sensor 3
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FFT Power Spectrum in Fast Survey, 32 frequencies for EFI Potential, Sensor 4
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FFT Power Spectrum in Fast Survey, 32 frequencies for EFI Potential, Sensor 5
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FFT Power Spectrum in Fast Survey, 32 frequencies for EFI Potential, Sensor 6
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FFT Power Spectrum in Fast Survey, 64 frequencies for SCM delta-B (parallel to B)
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FFT Power Spectrum in Fast Survey, 64 frequencies for SCM delta-B (perp to B)
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FFT Power Spectrum in Fast Survey, 64 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
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FFT Power Spectrum in Fast Survey, 64 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Particle Burst, 16 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Particle Burst, 32 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Particle Burst, 64 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Wave Burst, 16 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Wave Burst, 32 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Wave Burst, 64 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI Potential, Sensor 6
-
Standard Deviation of onboard FGS magnetic field spin-fit
-
FGS (spin-fit) magnetic field vector in XYZ despun spacecraft coordinates (DSL)
-
FGS (spin-fit) magnetic field vector in GSE coordinates
-
FGS (spin-fit) magnetic field vector in GSM coordinates
-
Standard Deviation of onboard EFS (spin-fit) electric field spin-fit
-
EFS (spin-fit) electric field vector in XYZ despun spacecraft coordinates (DSL)
-
EFS_0 (spin-fit, using E_z=0) electric field E in XYZ despun spacecraft coordinates (DSL)
-
EFS_DOT0 (spin-fit, using E dot B=0) electric field vector in XYZ despun spacecraft coordinates (DSL)
-
EFS (spin-fit) electric field vector in GSE coordinates
-
EFS_0 (spin-fit, using E_z=0) electric field E in GSE coordinates
-
EFS_DOT0 (spin-fit, using E dot B=0) electric field vector in GSE coordinates
-
EFS (spin-fit) electric field vector in GSM coordinates
-
EFS_0 (spin-fit, using E_z=0) electric field E in GSM coordinates
-
EFS_DOT0 (spin-fit, using E dot B=0) electric field vector in GSM coordinates
-
FIT_BFIT spin-fit calibrated data A, B, C, sigma, avg. (DSL)
-
FIT_EFIT spin-fit calibrated data A, B, C, sigma, avg. (DSL)
-
SST Ion energy spectrogram
-
SST Electron energy spectrogram
-
ESA electron solar wind mode flag; 0: Not in Solar Wind mode, 1: in Solar Wind mode
-
ESA ion solar wind mode flag; 0: Not in Solar Wind mode, 1: in Solar Wind mode
-
ESA Full Mode Ion Moment Data Quality (0: Good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/esa_flag.shtml.)
-
(Good data only) ESA Full (High Angular Resolution, few minute time res.) Mode, Ion Density
-
-----Ion Average Temperature
-
-----Ion Thermal Velocity
-
-----SC Potential (Same time array as Full Ion ESA data)
-
-----Ion Energy Flux spectrogram w/
-
-----Ion Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Temperature, Field Aligned (TprpFA1, TprpFA2, TparFA)
-
-----Ion Pressure Tensor
-
-----Ion Momentum Flux Tensor
-
-----Ion Particle Flux Vector /w Quality
-
-----Ion Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Ion Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Full Ion ESA data)
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
ESA Full Mode, Electron Moment Data Quality (0: Good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/esa_flag.shtml.)
-
(Good data only) ESA Full (High Angular Resolution, few minute time res.) Mode, Electron Density
-
-----Electron Average Temperature
-
-----Electron Thermal Velocity
-
-----SC Potential (Same time array as Full Electron ESA data)
-
-----Electron Energy Flux spectrogram
-
-----Electron Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Electron Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Electron Pressure Tensor
-
-----Electron Momentum Flux Tensor
-
-----Electron Particle Flux Vector
-
-----Electron Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Electron Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Full Electron ESA data)
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
ESA Reduced Mode, Ion Moment Data Quality (0: Good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/esa_flag.shtml.)
-
(Good data only) ESA Reduced (Low Angular Res., 3-s Time Res.) Mode, Ion Density
-
-----Ion Average Temperature
-
-----Ion Thermal Velocity
-
-----SC Potential (Same time array as Reduced Ion ESA data)
-
-----Ion Energy Flux spectrogram
-
-----Ion Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Ion Pressure Tensor
-
-----Ion Momentum Flux Tensor
-
-----Ion Particle Flux Vector
-
-----Ion Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Ion Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Reduced Ion ESA data)
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
ESA Reduced Mode, Electron Moment Data Quality (0: Good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/esa_flag.shtml.)
-
(Good data only) ESA Reduced (Low Angular Res., 3-s Time Res.) Mode, Electron Density
-
-----Electron Average Temperature
-
-----Electron Thermal Velocity
-
-----SC Potential (Same time array as Reduced Electron ESA data)
-
-----Electron Energy Flux spectrogram
-
-----Electron Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Electron Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Electron Pressure Tensor
-
-----Electron Momentum Flux Tensor
-
-----Electron Particle Flux Vector
-
-----Electron Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Electron Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Reduced Electron ESA data)
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
ESA Burst Mode, Ion Moment Data Quality (0: Good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/esa_flag.shtml.)
-
(Good data only) ESA Burst (High Time and Angular Resolution) Mode, Ion Density
-
-----Ion Average Temperature
-
-----Ion Thermal Velocity
-
-----SC Potential (Same time array as Burst Ion ESA data)
-
-----Ion Energy Flux spectrogram
-
-----Ion Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Ion Pressure Tensor
-
-----Ion Momentum Flux Tensor
-
-----Ion Particle Flux Vector
-
-----Ion Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Ion Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Burst Ion ESA data)
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
ESA Burst Mode, Electron Moment Data Quality (0: Good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/esa_flag.shtml.)
-
(Good data only) ESA Burst (High Time and Angular Resolution) Mode, Electron Density
-
-----Electron Average Temperature
-
-----Electron Thermal Velocity
-
-----SC Potential (Same time array as Burst Electron ESA data)
-
-----Electron Energy Flux spectrogram
-
-----Electron Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Electron Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Electron Pressure Tensor
-
-----Electron Momentum Flux Tensor
-
-----Electron Particle Flux Vector
-
-----Electron Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Electron Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Burst Electron ESA data)
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
(All qualities data) ESA Full (High Angular Resolution, few minute time res.) Mode, Ion Density
-
-----Ion Average Temperature
-
-----Ion Thermal Velocity
-
-----SC Potential (Same time array as Full Ion ESA data)
-
-----Ion Energy Flux spectrogram
-
-----Ion Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Temperature, Field Aligned (TprpFA1, TprpFA2, TparFA)
-
-----Ion Pressure Tensor
-
-----Ion Momentum Flux Tensor
-
-----Ion Particle Flux Vector
-
-----Ion Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Ion Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Full Ion ESA data)
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
(All qualities data) ESA Full (High Angular Resolution, few minute time res.) Mode, Electron Density
-
-----Electron Average Temperature
-
-----Electron Thermal Velocity
-
-----SC Potential (Same time array as Full Electron ESA data)
-
-----Electron Energy Flux spectrogram
-
-----Electron Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Electron Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Electron Pressure Tensor
-
-----Electron Momentum Flux Tensor
-
-----Electron Particle Flux Vector
-
-----Electron Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Electron Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Full Electron ESA data)
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
(All qualities data) ESA Reduced (Low Angular Res., 3-s Time Res.) Mode, Ion Density
-
-----Ion Average Temperature
-
-----Ion Thermal Velocity
-
-----SC Potential (Same time array as Reduced Ion ESA data)
-
-----Ion Energy Flux spectrogram
-
-----Ion Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Ion Pressure Tensor
-
-----Ion Momentum Flux Tensor
-
-----Ion Particle Flux Vector
-
-----Ion Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Ion Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Reduced Ion ESA data)
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
(All qualities data) ESA Reduced (Low Angular Res., 3-s Time Res.) Mode, Electron Density
-
-----Electron Average Temperature
-
-----Electron Thermal Velocity
-
-----SC Potential (Same time array as Reduced Electron ESA data)
-
-----Electron Energy Flux spectrogram
-
-----Electron Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Electron Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Electron Pressure Tensor
-
-----Electron Momentum Flux Tensor
-
-----Electron Particle Flux Vector
-
-----Electron Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Electron Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Reduced Electron ESA data)
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
(All qualities data) ESA Burst (High Time and Angular Resolution) Mode, Ion Density
-
-----Ion Average Temperature
-
-----Ion Thermal Velocity
-
-----SC Potential (Same time array as Burst Ion ESA data)
-
-----Ion Energy Flux spectrogram
-
-----Ion Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Ion Pressure Tensor
-
-----Ion Momentum Flux Tensor
-
-----Ion Particle Flux Vector
-
-----Ion Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Ion Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Burst Ion ESA data)
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
(All qualities data) ESA Burst (High Time and Angular Resolution) Mode, Electron Density
-
-----Electron Average Temperature
-
-----Electron Thermal Velocity
-
-----SC Potential (Same time array as Burst Electron ESA data)
-
-----Electron Energy Flux spectrogram
-
-----Electron Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Electron Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Electron Pressure Tensor
-
-----Electron Momentum Flux Tensor
-
-----Electron Particle Flux Vector
-
-----Electron Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Electron Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Burst Electron ESA data)
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
ESA electron solar wind mode flag; 0: Not in Solar Wind mode, 1: in Solar Wind mode
-
ESA ion solar wind mode flag; 0: Not in Solar Wind mode, 1: in Solar Wind mode
-
Ion Moment Data Quality (0: good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/mom_flag.shtml.)
-
(Good data only) ESA On Board Moment (MOM) Ion Density, THEMIS-B
-
-----Ion Total Pressure
-
-----Ion Particle Flux Vector
-
-----Ion Momentum Flux Tensor
-
-----Ion Energy Flux Vector
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
-----Ion Pressure Tensor
-
-----Magnetic Field Vector DSL (Same time array as MOM Ion ESA data)
-
-----Ion Velocity Vector, Field Aligned
-
-----Ion Temperature, Field Aligned (TprpFA1, TprpFA2, TparFA)
-
-----Ion Pressure Tensor, Field Aligned
-
Electron Moment Data Quality (0: good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/mom_flag.shtml.)
-
(Good data only) ESA On Board Moment (MOM) Electron Density, THEMIS-B
-
-----Electron Total Pressure
-
-----Electron Particle Flux Vector
-
-----Electron Momentum Flux Tensor
-
-----Electron Energy Flux Vector
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
-----Electron Pressure Tensor
-
-----Magnetic Field Vector DSL (Same time array as MOM Electron ESA data)
-
-----Electron Velocity Vector, Field Aligned
-
-----Electron Temperature, Field Aligned (TprpFA1, TprpFA2, TparFA)
-
-----Electron Pressure Tensor, Field Aligned
-
(All qualities data) ESA On Board Moment (MOM) Ion Density, THEMIS-B
-
-----Ion Total Pressure
-
-----Ion Particle Flux Vector
-
-----Ion Momentum Flux Tensor
-
-----Ion Energy Flux Vector
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
-----Ion Pressure Tensor
-
-----Magnetic Field Vector DSL (Same time array as MOM Ion ESA data)
-
-----Ion Velocity Vector, Field Aligned
-
-----Ion Temperature, Field Aligned (TprpFA1, TprpFA2, TparFA)
-
-----Ion Pressure Tensor, Field Aligned
-
(All Qualities data) ESA On Board Moment (MOM) Electron Density, THEMIS-B
-
-----Electron Total Pressure
-
-----Electron Particle Flux Vector
-
-----Electron Momentum Flux Tensor
-
-----Electron Energy Flux Vector
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
-----Electron Pressure Tensor
-
-----Magnetic Field Vector DSL (Same time array as MOM Electron ESA data)
-
-----Electron Velocity Vector, Field Aligned
-
-----Electron Temperature, Field Aligned (TprpFA1, TprpFA2, TparFA)
-
-----Electron Pressure Tensor, Field Aligned
-
Spacecraft Potential, THEMIS-B
-
ESA electron solar wind mode flag; 0: Not in Solar Wind mode, 1: in Solar Wind mode
-
ESA ion solar wind mode flag; 0: Not in Solar Wind mode, 1: in Solar Wind mode
-
FFT Power Spectrum in Fast Survey, 16 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Fast Survey, 32 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Fast Survey, 64 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Particle Burst, 16 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Particle Burst, 32 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Particle Burst, 64 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Wave Burst, 16 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Wave Burst, 32 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Wave Burst, 64 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI Potential, Sensor 6
-
Ion Moment Data Quality (0: good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/mom_flag.shtml.)
-
(Good data only) ESA On Board Moment (MOM) Ion Density, THEMIS-C
-
-----Ion Total Pressure
-
-----Ion Particle Flux Vector
-
-----Ion Momentum Flux Tensor
-
-----Ion Energy Flux Vector
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
-----Ion Pressure Tensor
-
-----Magnetic Field Vector DSL (Same time array as MOM Ion ESA data)
-
-----Ion Velocity Vector, Field Aligned
-
-----Ion Temperature, Field Aligned (TprpFA1, TprpFA2, TparFA)
-
-----Ion Pressure Tensor, Field Aligned
-
Electron Moment Data Quality (0: good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/mom_flag.shtml.)
-
(Good data only) ESA On Board Moment (MOM) Electron Density, THEMIS-C
-
-----Electron Total Pressure
-
-----Electron Particle Flux Vector
-
-----Electron Momentum Flux Tensor
-
-----Electron Energy Flux Vector
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
-----Electron Pressure Tensor
-
-----Magnetic Field Vector DSL (Same time array as MOM Electron ESA data)
-
-----Electron Velocity Vector, Field Aligned
-
-----Electron Temperature, Field Aligned (TprpFA1, TprpFA2, TparFA)
-
-----Electron Pressure Tensor, Field Aligned
-
(All qualities data) ESA On Board Moment (MOM) Ion Density, THEMIS-C
-
-----Ion Total Pressure
-
-----Ion Particle Flux Vector
-
-----Ion Momentum Flux Tensor
-
-----Ion Energy Flux Vector
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
-----Ion Pressure Tensor
-
-----Magnetic Field Vector DSL (Same time array as MOM Ion ESA data)
-
-----Ion Velocity Vector, Field Aligned
-
-----Ion Temperature, Field Aligned (TprpFA1, TprpFA2, TparFA)
-
-----Ion Pressure Tensor, Field Aligned
-
(All Qualities data) ESA On Board Moment (MOM) Electron Density, THEMIS-C
-
-----Electron Total Pressure
-
-----Electron Particle Flux Vector
-
-----Electron Momentum Flux Tensor
-
-----Electron Energy Flux Vector
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
-----Electron Pressure Tensor
-
-----Magnetic Field Vector DSL (Same time array as MOM Electron ESA data)
-
-----Electron Velocity Vector, Field Aligned
-
-----Electron Temperature, Field Aligned (TprpFA1, TprpFA2, TparFA)
-
-----Electron Pressure Tensor, Field Aligned
-
Spacecraft Potential, THEMIS-C
-
ESA electron solar wind mode flag; 0: Not in Solar Wind mode, 1: in Solar Wind mode
-
ESA ion solar wind mode flag; 0: Not in Solar Wind mode, 1: in Solar Wind mode
-
Standard Deviation of onboard FGS magnetic field spin-fit
-
FGS (spin-fit) magnetic field vector in XYZ despun spacecraft coordinates (DSL)
-
FGS (spin-fit) magnetic field vector in GSE coordinates
-
FGS (spin-fit) magnetic field vector in GSM coordinates
-
Standard Deviation of onboard EFS (spin-fit) electric field spin-fit
-
EFS (spin-fit) electric field vector in XYZ despun spacecraft coordinates (DSL)
-
EFS_0 (spin-fit, using E_z=0) electric field E in XYZ despun spacecraft coordinates (DSL)
-
EFS_DOT0 (spin-fit, using E dot B=0) electric field vector in XYZ despun spacecraft coordinates (DSL)
-
EFS (spin-fit) electric field vector in GSE coordinates
-
EFS_0 (spin-fit, using E_z=0) electric field E in GSE coordinates
-
EFS_DOT0 (spin-fit, using E dot B=0) electric field vector in GSE coordinates
-
EFS (spin-fit) electric field vector in GSM coordinates
-
EFS_0 (spin-fit, using E_z=0) electric field E in GSM coordinates
-
EFS_DOT0 (spin-fit, using E dot B=0) electric field vector in GSM coordinates
-
FIT_BFIT spin-fit calibrated data A, B, C, sigma, avg. (DSL)
-
FIT_EFIT spin-fit calibrated data A, B, C, sigma, avg. (DSL)
-
SST Ion energy spectrogram
-
SST Electron energy spectrogram
-
ESA electron solar wind mode flag; 0: Not in Solar Wind mode, 1: in Solar Wind mode
-
ESA ion solar wind mode flag; 0: Not in Solar Wind mode, 1: in Solar Wind mode
-
ESA Full Mode Ion Moment Data Quality (0: Good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/esa_flag.shtml.)
-
(Good data only) ESA Full (High Angular Resolution, few minute time res.) Mode, Ion Density
-
-----Ion Average Temperature
-
-----Ion Thermal Velocity
-
-----SC Potential (Same time array as Full Ion ESA data)
-
-----Ion Energy Flux spectrogram w/
-
-----Ion Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Temperature, Field Aligned (TprpFA1, TprpFA2, TparFA)
-
-----Ion Pressure Tensor
-
-----Ion Momentum Flux Tensor
-
-----Ion Particle Flux Vector /w Quality
-
-----Ion Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Ion Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Full Ion ESA data)
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
ESA Full Mode, Electron Moment Data Quality (0: Good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/esa_flag.shtml.)
-
(Good data only) ESA Full (High Angular Resolution, few minute time res.) Mode, Electron Density
-
-----Electron Average Temperature
-
-----Electron Thermal Velocity
-
-----SC Potential (Same time array as Full Electron ESA data)
-
-----Electron Energy Flux spectrogram
-
-----Electron Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Electron Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Electron Pressure Tensor
-
-----Electron Momentum Flux Tensor
-
-----Electron Particle Flux Vector
-
-----Electron Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Electron Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Full Electron ESA data)
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
ESA Reduced Mode, Ion Moment Data Quality (0: Good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/esa_flag.shtml.)
-
(Good data only) ESA Reduced (Low Angular Res., 3-s Time Res.) Mode, Ion Density
-
-----Ion Average Temperature
-
-----Ion Thermal Velocity
-
-----SC Potential (Same time array as Reduced Ion ESA data)
-
-----Ion Energy Flux spectrogram
-
-----Ion Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Ion Pressure Tensor
-
-----Ion Momentum Flux Tensor
-
-----Ion Particle Flux Vector
-
-----Ion Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Ion Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Reduced Ion ESA data)
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
ESA Reduced Mode, Electron Moment Data Quality (0: Good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/esa_flag.shtml.)
-
(Good data only) ESA Reduced (Low Angular Res., 3-s Time Res.) Mode, Electron Density
-
-----Electron Average Temperature
-
-----Electron Thermal Velocity
-
-----SC Potential (Same time array as Reduced Electron ESA data)
-
-----Electron Energy Flux spectrogram
-
-----Electron Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Electron Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Electron Pressure Tensor
-
-----Electron Momentum Flux Tensor
-
-----Electron Particle Flux Vector
-
-----Electron Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Electron Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Reduced Electron ESA data)
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
ESA Burst Mode, Ion Moment Data Quality (0: Good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/esa_flag.shtml.)
-
(Good data only) ESA Burst (High Time and Angular Resolution) Mode, Ion Density
-
-----Ion Average Temperature
-
-----Ion Thermal Velocity
-
-----SC Potential (Same time array as Burst Ion ESA data)
-
-----Ion Energy Flux spectrogram
-
-----Ion Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Ion Pressure Tensor
-
-----Ion Momentum Flux Tensor
-
-----Ion Particle Flux Vector
-
-----Ion Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Ion Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Burst Ion ESA data)
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
ESA Burst Mode, Electron Moment Data Quality (0: Good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/esa_flag.shtml.)
-
(Good data only) ESA Burst (High Time and Angular Resolution) Mode, Electron Density
-
-----Electron Average Temperature
-
-----Electron Thermal Velocity
-
-----SC Potential (Same time array as Burst Electron ESA data)
-
-----Electron Energy Flux spectrogram
-
-----Electron Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Electron Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Electron Pressure Tensor
-
-----Electron Momentum Flux Tensor
-
-----Electron Particle Flux Vector
-
-----Electron Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Electron Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Burst Electron ESA data)
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
(All qualities data) ESA Full (High Angular Resolution, few minute time res.) Mode, Ion Density
-
-----Ion Average Temperature
-
-----Ion Thermal Velocity
-
-----SC Potential (Same time array as Full Ion ESA data)
-
-----Ion Energy Flux spectrogram
-
-----Ion Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Temperature, Field Aligned (TprpFA1, TprpFA2, TparFA)
-
-----Ion Pressure Tensor
-
-----Ion Momentum Flux Tensor
-
-----Ion Particle Flux Vector
-
-----Ion Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Ion Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Full Ion ESA data)
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
(All qualities data) ESA Full (High Angular Resolution, few minute time res.) Mode, Electron Density
-
-----Electron Average Temperature
-
-----Electron Thermal Velocity
-
-----SC Potential (Same time array as Full Electron ESA data)
-
-----Electron Energy Flux spectrogram
-
-----Electron Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Electron Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Electron Pressure Tensor
-
-----Electron Momentum Flux Tensor
-
-----Electron Particle Flux Vector
-
-----Electron Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Electron Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Full Electron ESA data)
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
(All qualities data) ESA Reduced (Low Angular Res., 3-s Time Res.) Mode, Ion Density
-
-----Ion Average Temperature
-
-----Ion Thermal Velocity
-
-----SC Potential (Same time array as Reduced Ion ESA data)
-
-----Ion Energy Flux spectrogram
-
-----Ion Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Ion Pressure Tensor
-
-----Ion Momentum Flux Tensor
-
-----Ion Particle Flux Vector
-
-----Ion Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Ion Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Reduced Ion ESA data)
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
(All qualities data) ESA Reduced (Low Angular Res., 3-s Time Res.) Mode, Electron Density
-
-----Electron Average Temperature
-
-----Electron Thermal Velocity
-
-----SC Potential (Same time array as Reduced Electron ESA data)
-
-----Electron Energy Flux spectrogram
-
-----Electron Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Electron Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Electron Pressure Tensor
-
-----Electron Momentum Flux Tensor
-
-----Electron Particle Flux Vector
-
-----Electron Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Electron Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Reduced Electron ESA data)
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
(All qualities data) ESA Burst (High Time and Angular Resolution) Mode, Ion Density
-
-----Ion Average Temperature
-
-----Ion Thermal Velocity
-
-----SC Potential (Same time array as Burst Ion ESA data)
-
-----Ion Energy Flux spectrogram
-
-----Ion Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Ion Pressure Tensor
-
-----Ion Momentum Flux Tensor
-
-----Ion Particle Flux Vector
-
-----Ion Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Ion Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Burst Ion ESA data)
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
(All qualities data) ESA Burst (High Time and Angular Resolution) Mode, Electron Density
-
-----Electron Average Temperature
-
-----Electron Thermal Velocity
-
-----SC Potential (Same time array as Burst Electron ESA data)
-
-----Electron Energy Flux spectrogram
-
-----Electron Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Electron Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Electron Pressure Tensor
-
-----Electron Momentum Flux Tensor
-
-----Electron Particle Flux Vector
-
-----Electron Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Electron Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Burst Electron ESA data)
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
ESA electron solar wind mode flag; 0: Not in Solar Wind mode, 1: in Solar Wind mode
-
ESA ion solar wind mode flag; 0: Not in Solar Wind mode, 1: in Solar Wind mode
-
FGS (spin-resolution/~3 sec) magnetic field B magnitude
-
FGS magnetic field B in XYZ GSE Coordinates
-
(Good data only) ESA Full (High Angular Resolution, few minute time res.) Mode, Ion Density
-
-----Ion Thermal Velocity
-
-----Plasma flow speed
-
-----Ion Velocity Vector in GSE
-
XYZ in GSE coordinates (time-series)
-
XYZ in SSE coordinates (time-series)
-
Esa Ion Mode Flag, 0=magnetospheric mode 1=solar wind mode
-
FGS (spin-resolution/~3 sec) magnetic field B magnitude
-
FGS magnetic field B in XYZ GSE Coordinates
-
(Good data only) ESA Full (High Angular Resolution, few minute time res.) Mode, Ion Density
-
-----Ion Thermal Velocity
-
-----Plasma flow speed
-
-----Ion Velocity Vector in GSE
-
XYZ in GSE coordinates (time-series)
-
XYZ in SSE coordinates (time-series)
-
Esa Ion Mode Flag, 0=magnetospheric mode 1=solar wind mode
-
Orbit parameters from SSCWeb - SSCWeb (SPDF/Goddard) Orbit parameters from SSCWeb - SSCWeb (SPDF/Goddard)
-
LIM QUI SNT SOL WNK
-
Alouette-2 Topside Sounder Ionograms over Lima, Peru (Lat=-12, Long=283) - R.F. Benson (NASA GSFC)
-
Alouette-2 Topside Sounder Ionogram over Quito, Equador (lat/lon=-1/281) - R.F. Benson (NASA GSFC)
-
Alouette-2 Topside Sounder Ionogram over Santiago, Chile (lat/lon=-33/298) - R.F. Benson (NASA GSFC)
-
Alouette-2 Topside Sounder Ionogram over Falkland Is., U.K. (lat/lon=-52/302) - R.F. Benson (NASA GSFC)
-
Alouette-2 Topside Sounder Ionogram over Winkfield, U.K. (lat/lon=51/359) - R.F. Benson (NASA GSFC)
-
SWS
-
Apollo 12 Solar Wind measurements at the lunar surface - Conway W. Snyder (Jet Propulsion Laboratory ) Apollo 12 Solar Wind measurements at the lunar surface - Conway W. Snyder (Jet Propulsion Laboratory ) Apollo 15 Solar Wind measurements at the lunar surface - Conway W. Snyder (Jet Propulsion Laboratory ) Apollo 15 Solar Wind measurements at the lunar surface - Conway W. Snyder (Jet Propulsion Laboratory )
-
Proton Density
-
Alpha to Proton Ratio
-
Proton Bulk Speed
-
Proton Thermal Velocity
-
Proton Flow Angle toward East, SE Coords
-
Proton Flow Angle toward North, SE Coords
-
FLAG Word bits not separately shown; packed in low order bits; See Var_Notes
-
Flag for how angle alpha was derived. See Var_Notes.
-
Flag for how angle beta was derived. See Var_Notes.
-
1 means that side cup not next to cup A has more current than cups B or C
-
Gain Level: 0 = Low; 1 = High
-
Percentage Error in Fitting Program
-
Side cup (not vertical) with most current
-
Current in Cup A (shown by KUPA)
-
Current in Cup B (CCW from Cup A)
-
Current in Cup C (CW from Cup A)
-
Current in Cup 7 (center, vertical)
-
Correction for M-B least sq est of density
-
Noise level used in estimating angles
-
No. of spectra in set 1
-
Hour-Average Proton Density 1
-
Alpha to Proton Ratio 1
-
Hour-Average Proton Bulk Speed 1
-
Hour-Average Thermal Velocity 1
-
Proton Flow Angle toward East 1, SE coordinates
-
Proton Flow Angle toward ecliptic North 1
-
RMS Deviation of Proton Density 1
-
RMS Deviation of Alpha-Proton Ratio 1
-
RMS Deviation of Avg Proton Bulk Speed 1
-
RMS Deviation of Average Thermal Velocity 1
-
RMS Deviation of Angle toward East 1
-
RMS Deviation of Angle toward North 1
-
No. of spectra in set 2
-
Hour-Average Proton Density 2
-
Alpha to Proton Ratio 2
-
Hour-Average Proton Bulk Speed 2
-
Hour-Average Thermal Velocity 2
-
Proton Flow Angle toward East 2, SE coordinates
-
Proton Flow Angle toward ecliptic North 2
-
RMS Deviation of Proton Density 2
-
RMS Deviation of Alpha-Proton Ratio 2
-
RMS Deviation of Avg Proton Bulk Speed 2
-
RMS Deviation of Average Thermal Velocity 2
-
RMS Deviation of Angle toward East 2
-
RMS Deviation of Angle toward North 2
-
No. of spectra in set 3
-
Hour-Average Proton Density 3
-
Alpha to Proton Ratio 3
-
Hour-Average Proton Bulk Speed 3
-
Hour-Average Thermal Velocity 3
-
Proton Flow Angle toward East 3, SE coordinates
-
Proton Flow Angle toward ecliptic North 3
-
RMS Deviation of Proton Density 3
-
RMS Deviation of Alpha-Proton Ratio 3
-
RMS Deviation of Avg Proton Bulk Speed 3
-
RMS Deviation of Average Thermal Velocity 3
-
RMS Deviation of Angle toward East 3
-
RMS Deviation of Angle toward North 3
-
No. of spectra in set 4
-
Hour-Average Proton Density 4
-
Alpha to Proton Ratio 4
-
Hour-Average Proton Bulk Speed 4
-
Hour-Average Thermal Velocity 4
-
Proton Flow Angle toward East 4, SE coordinates
-
Proton Flow Angle toward ecliptic North 4
-
RMS Deviation of Proton Density 4
-
RMS Deviation of Alpha-Proton Ratio 4
-
RMS Deviation of Avg Proton Bulk Speed 4
-
RMS Deviation of Average Thermal Velocity 4
-
RMS Deviation of Angle toward East 4
-
RMS Deviation of Angle toward North 4
-
No. of spectra in set 1
-
Hour-Average Proton Density 1
-
Alpha to Proton Ratio 1
-
Hour-Average Proton Bulk Speed 1
-
Hour-Average Thermal Velocity 1
-
Proton Flow Angle toward East 1, SE coordinates
-
Proton Flow Angle toward ecliptic North 1
-
RMS Deviation of Proton Density 1
-
RMS Deviation of Alpha-Proton Ratio 1
-
RMS Deviation of Avg Proton Bulk Speed 1
-
RMS Deviation of Average Thermal Velocity 1
-
RMS Deviation of Angle toward East 1
-
RMS Deviation of Angle toward North 1
-
No. of spectra in set 2
-
Hour-Average Proton Density 2
-
Alpha to Proton Ratio 2
-
Hour-Average Proton Bulk Speed 2
-
Hour-Average Thermal Velocity 2
-
Proton Flow Angle toward East 2, SE coordinates
-
Proton Flow Angle toward ecliptic North 2
-
RMS Deviation of Proton Density 2
-
RMS Deviation of Alpha-Proton Ratio 2
-
RMS Deviation of Avg Proton Bulk Speed 2
-
RMS Deviation of Average Thermal Velocity 2
-
RMS Deviation of Angle toward East 2
-
RMS Deviation of Angle toward North 2
-
No. of spectra in set 3
-
Hour-Average Proton Density 3
-
Alpha to Proton Ratio 3
-
Hour-Average Proton Bulk Speed 3
-
Hour-Average Thermal Velocity 3
-
Proton Flow Angle toward East 3, SE coordinates
-
Proton Flow Angle toward ecliptic North 3
-
RMS Deviation of Proton Density 3
-
RMS Deviation of Alpha-Proton Ratio 3
-
RMS Deviation of Avg Proton Bulk Speed 3
-
RMS Deviation of Average Thermal Velocity 3
-
RMS Deviation of Angle toward East 3
-
RMS Deviation of Angle toward North 3
-
No. of spectra in set 4
-
Hour-Average Proton Density 4
-
Alpha to Proton Ratio 4
-
Hour-Average Proton Bulk Speed 4
-
Hour-Average Thermal Velocity 4
-
Proton Flow Angle toward East 4, SE coordinates
-
Proton Flow Angle toward ecliptic North 4
-
RMS Deviation of Proton Density 4
-
RMS Deviation of Alpha-Proton Ratio 4
-
RMS Deviation of Avg Proton Bulk Speed 4
-
RMS Deviation of Average Thermal Velocity 4
-
RMS Deviation of Angle toward East 4
-
RMS Deviation of Angle toward North 4
-
Proton Density
-
Alpha to Proton Ratio
-
Proton Bulk Speed
-
Proton Thermal Velocity
-
Proton Flow Angle toward East, SE Coords
-
Proton Flow Angle toward North, SE Coords
-
FLAG Word bits not separately shown; packed in low order bits; See Var_Notes
-
Flag for how angle alpha was derived. See Var_Notes.
-
Flag for how angle beta was derived. See Var_Notes.
-
1 means that side cup not next to cup A has more current than cups B or C
-
Gain Level: 0 = Low; 1 = High
-
Percentage Error in Fitting Program
-
Side cup (not vertical) with most current
-
Current in Cup A (shown by KUPA)
-
Current in Cup B (CCW from Cup A)
-
Current in Cup C (CW from Cup A)
-
Current in Cup 7 (center, vertical)
-
Correction for M-B least sq est of density
-
Noise level used in estimating angles
-
PLP Unknown VEFI
-
Planar Langmuir Probe 1-sec average Key Parameters (Ni, Ne, Te). The data are PRELIMINARY, and as such, are intended for BROWSE PURPOSES ONLY - D. E. Hunton (Air Force Research Laboratory, Space Vehicles Directorate)
-
CNOFS VEFI Lightning Detector, low rate data (eclipse portion of CNOFS orbit) - Robert H. Holzworth (University of Washington)
-
C/NOFS latitude in degrees
-
C/NOFS longitude in degrees (east)
-
C/NOFS altitude in km
-
Number of samples with white-light irradiance in 7 bins defined by the irradiance boundary values 0.23, 3.7, 11, 23, 39, 60, 84, > 84 mW/m^2 (north-viewing diode)
-
Number of samples with white-light irradiance in 7 bins defined by the irradiance boundary values 0.23, 3.7, 11, 23, 39, 60, 84, > 84 mW/m^2 (south-viewing diode)
-
Electric Field solution (at 1 sample/sec) produced by VEFI on the Communication Navigation Outage Forecast System satellite. The data are PRELIMINARY, and as such, are intended for BROWSE PURPOSES ONLY. - Robert F. Pfaff (GSFC) Magnetic field solution (at 1 sample per sec) produced by VEFI on the Communication Navigation Outage Forecast System satellite. The data are PRELIMINARY, and as such, are intended for BROWSE PURPOSES ONLY. - Robert F. Pfaff (NASA GSFC)
-
MEA
-
CRRES-MEA Data Archive - A. L. Vampola (Space Environment Effects, Vista, CA)
-
ASP AUX CIS DWP EDI EFW FGM FGM_SPIN PCY PEA PGP PMP PSE RAP Reference STA WBD WHI
-
Cluster Spacecraft 1, ASPOC Prime Parameters - W. Riedler (IWF-OAW) Cluster Spacecraft 2, ASPOC Prime Parameters - W. Riedler (IWF-OAW) Cluster Spacecraft 3, ASPOC Prime Parameters - W. Riedler (IWF-OAW) Cluster Spacecraft 4, ASPOC Prime Parameters - W. Riedler (IWF-OAW) Cluster, ASPOC Summary Parameters - W. Riedler (IWF-OAW)
-
Cluster, Auxiliary Parameters - Hungarian Data Centre/M. Tatrallyay (KFKI)
-
Spacecraft status
-
orbit number including phase
-
Position of reference Spacecraft (cluster 3)
-
Velocity of reference Spacecraft (cluster 3)
-
Position of sc 1 from ref sc
-
Position of sc 2 from ref sc
-
Position of sc 3 from ref sc
-
Position of sc 4 from ref sc
-
gse Latitude of sc 1 axis, Angle from Ecliptic Plane
-
gse Longitude of sc 1 axis, Angle from x in x-y (GSE) plane
-
gse Latitude of sc 2 axis, Angle from Ecliptic Plane
-
gse Longitude of sc 2 axis, Angle from x in x-y (GSE) plane
-
gse Latitude of sc 3 axis, Angle from Ecliptic Plane
-
gse Longitude of sc 3 axis, Angle from x in x-y (GSE) plane
-
gse Latitude of sc 4 axis, Angle from Ecliptic Plane
-
gse Longitude of sc 4 axis, Angle from x in x-y (GSE) plane
-
Tetrahedron Quality G, (vol/ideal) + (surf/ideal) + 1
-
Tetrahedron Quality R, norm*(vol/sphere vol)^(1/3)
-
Minimum Distance Between Spacecraft
-
Maximum Distance Between Spacecraft
-
Rotation angle GSE to GSM, positive from +z towards +y
-
Dipole Tilt in GSM z-x Plane, positive from +z towards +x
-
Tetrahedron size L, characteristic size
-
Tetrahedron Elongation E, elongation
-
Tetrahedron Planarity P
-
Direction of Elongation, Direction cosines
-
Normal of Planarity, Direction cosines
-
Position for reference Spacecraft (cluster 3, GEI)
-
Position for Spacecraft 1 (GEI)
-
Position for Spacecraft 2 (GEI)
-
Position for Spacecraft 4 (GEI)
-
Cluster Spacecraft 1, CIS Prime Parameters - H. Reme (CESR) Cluster Spacecraft 2, CIS Prime Parameters - H. Reme (CESR) Cluster Spacecraft 3, CIS Prime Parameters - H. Reme (CESR) Cluster Spacecraft 4, CIS Prime Parameters - H. Reme (CESR) Cluster, CIS Summary Parameters (Ion Spectrometer) - H. Reme (CESR)
-
CIS status
-
Proton Density, CODIF ion mass spectrometer
-
O+ Density, CODIF ion mass spectrometer
-
He+ Density, CODIF ion mass spectrometer
-
He++ Density, CODIF ion mass spectrometer
-
Hot Ion Density, HIA hot ion analyser
-
Proton Bulk Velocity
-
Hot Ion Bulk Velocity
-
Proton Parallel Temperature
-
Proton Perp. Temperature
-
Hot Ion Parallel Temperature
-
Hot Ion Perp. Temperature
-
CIS status
-
Proton Density, CODIF ion mass spectrometer
-
O+ Density, CODIF ion mass spectrometer
-
He+ Density, CODIF ion mass spectrometer
-
He++ Density, CODIF ion mass spectrometer
-
Hot Ion Density, HIA hot ion analyser
-
Proton Bulk Velocity
-
Hot Ion Bulk Velocity
-
Proton Parallel Temperature
-
Proton Perp. Temperature
-
Hot Ion Parallel Temperature
-
Hot Ion Perp. Temperature
-
CIS status
-
Proton Density, CODIF ion mass spectrometer
-
O+ Density, CODIF ion mass spectrometer
-
He+ Density, CODIF ion mass spectrometer
-
He++ Density, CODIF ion mass spectrometer
-
Hot Ion Density, HIA hot ion analyser
-
Proton Bulk Velocity
-
Hot Ion Bulk Velocity
-
Proton Parallel Temperature
-
Proton Perp. Temperature
-
Hot Ion Parallel Temperature
-
Hot Ion Perp. Temperature
-
CIS status
-
Proton Density, CODIF ion mass spectrometer
-
O+ Density, CODIF ion mass spectrometer
-
He+ Density, CODIF ion mass spectrometer
-
He++ Density, CODIF ion mass spectrometer
-
Hot Ion Density, HIA hot ion analyser
-
Proton Bulk Velocity
-
Hot Ion Bulk Velocity
-
Proton Parallel Temperature
-
Proton Perp. Temperature
-
Hot Ion Parallel Temperature
-
Hot Ion Perp. Temperature
-
CIS status
-
Proton Density, CODIF ion mass spectrometer
-
O+ Density, CODIF ion mass spectrometer
-
He+ Density, CODIF ion mass spectrometer
-
He++ Density, CODIF ion mass spectrometer
-
Hot Ion Density, HIA hot ion analyser
-
Proton Bulk Velocity
-
Hot Ion Bulk Velocity
-
O+ Bulk Velocity
-
Proton Temperature
-
Hot Ion Temperature
-
Cluster Spacecraft 1, DWP Prime Parameters - H. Alleyne (Univ-Sheff) Cluster Spacecraft 2, DWP Prime Parameters - H. Alleyne (Univ-Sheff) Cluster Spacecraft 3, DWP Prime Parameters - H. Alleyne (Univ-Sheff) Cluster Spacecraft 4, DWP Prime Parameters - H. Alleyne (Univ-Sheff) Cluster, DWP Summary Parameters - H. Alleyne (Univ-Sheff)
-
Cluster Spacecraft 1, EDI Prime Parameters - G. Paschmann (MPE) Cluster Spacecraft 2, EDI Prime Parameters - G. Paschmann (MPE) Cluster Spacecraft 3, EDI Prime Parameters - G. Paschmann (MPE) Cluster Spacecraft 4, EDI Prime Parameters - G. Paschmann (MPE) Cluster, EDI Summary Parameters - G. Paschmann (MPE)
-
Cluster Spacecraft 1, EFW Prime Parameters - G. Gustafsson (IRFU) Cluster Spacecraft 2, EFW Prime Parameters - G. Gustafsson (IRFU) Cluster Spacecraft 3, EFW Prime Parameters - G. Gustafsson (IRFU) Cluster Spacecraft 4, EFW Prime Parameters - G. Gustafsson (IRFU) Cluster, EFW Summary Parameters - G. Gustafsson (IRFU)
-
EFW status
-
WEC status
-
Duskward Electric Field, In spin plane perp to x-gse
-
E-field spectral density, Freq range 0.3-10 Hz, from EFW waveform
-
E-field spectral density, Freq range 10-180 Hz, from EFW waveform
-
Electric Field Variation, Based on spin plane component
-
Probe potential, Relative to Spacecraft
-
EFW status
-
WEC status
-
Duskward Electric Field, In spin plane perp to x-gse
-
E-field spectral density, Freq range 0.3-10 Hz, from EFW waveform
-
E-field spectral density, Freq range 10-180 Hz, from EFW waveform
-
Electric Field Variation, Based on spin plane component
-
Probe potential, Relative to Spacecraft
-
EFW status
-
WEC status
-
Duskward Electric Field, In spin plane perp to x-gse
-
E-field spectral density, Freq range 0.3-10 Hz, from EFW waveform
-
E-field spectral density, Freq range 10-180 Hz, from EFW waveform
-
Electric Field Variation, Based on spin plane component
-
Probe potential, Relative to Spacecraft
-
EFW status
-
WEC status
-
Duskward Electric Field, In spin plane perp to x-gse
-
E-field spectral density, Freq range 0.3-10 Hz, from EFW waveform
-
E-field spectral density, Freq range 10-180 Hz, from EFW waveform
-
Electric Field Variation, Based on spin plane component
-
Probe potential, Relative to Spacecraft
-
EFW status
-
WEC status
-
Duskward Electric Field, In spin plane perp to x-gse
-
E-field spectral density, Freq range 0.3-10 Hz, from EFW waveform
-
E-field spectral density, Freq range 10-180 Hz, from EFW waveform
-
Electric Field Variation, Based on spin plane component
-
Probe potential, Relative to Spacecraft
-
Cluster Spacecraft 1, FluxGate Magnetometer (FGM) Unvalidated Prime Parameters - A. Balogh (ICSTM) Cluster Spacecraft 2 FluxGate Magnetometer (FGM) Spin-Resolution Parameters - Andre Balogh>a.balogh@imperial.ac.uk & Elizabeth Lucek>e.lucek@imperial.ac.uk & ESA CAA (Imperial College) Cluster Spacecraft 2, FluxGate Magnetometer (FGM) Unvalidated Prime Parameters - A. Balogh (ICSTM) Cluster Spacecraft 3 FluxGate Magnetometer (FGM) Spin-Resolution Parameters - Andre Balogh>a.balogh@imperial.ac.uk & Elizabeth Lucek>e.lucek@imperial.ac.uk & ESA CAA (Imperial College) Cluster Spacecraft 3, FluxGate Magnetometer (FGM) Unvalidated Prime Parameters - A. Balogh (ICSTM) Cluster Spacecraft 4 FluxGate Magnetometer (FGM) Spin-Resolution Parameters - Andre Balogh>a.balogh@imperial.ac.uk & Elizabeth Lucek>e.lucek@imperial.ac.uk & ESA CAA (Imperial College) Cluster Spacecraft 4, FluxGate Magnetometer (FGM) Unvalidated Prime Parameters - A. Balogh (ICSTM) Cluster, FluxGate Magnetometer (FGM) Summary Parameters - A. Balogh (ICSTM) Cluster, FluxGate Magnetometer (FGM) Unvalidated Summary Parameters - A. Balogh (ICSTM)
-
FGM status
-
FGM DC magnetic field, interval centred data from primary sensor
-
Normalised magnetic variance: summed component variances
-
Normalised magnetic variance: magnitude
-
Cluster C2, Magnetic Field Vector, spin resolution in GSE
-
Cluster C2, Magnetic Field Magnitude, spin resolution
-
Position of Cluster C2 in GSE
-
FGM status
-
FGM DC magnetic field, interval centred data from primary sensor
-
Normalised magnetic variance: summed component variances
-
Normalised magnetic variance: magnitude
-
Cluster C3, Magnetic Field Vector, spin resolution in GSE
-
Cluster C3, Magnetic Field Magnitude, spin resolution
-
Position of Cluster C3 in GSE
-
FGM status
-
FGM DC magnetic field, interval centred data from primary sensor
-
Normalised magnetic variance: summed component variances
-
Normalised magnetic variance: magnitude
-
Cluster C4, Magnetic Field Vector, spin resolution in GSE
-
Cluster C4, Magnetic Field Magnitude, spin resolution
-
Position of Cluster C4 in GSE
-
FGM status
-
FGM DC magnetic field, interval centred data from primary sensor
-
Normalised magnetic variance: summed component variances
-
Normalised magnetic variance: magnitude
-
FGM status
-
FGM DC magnetic field, interval centred data from primary sensor
-
FGM DC magnetic field magnitude, interval centered data from primary sensor
-
Normalised magnetic variance: summed component variances
-
Normalised magnetic variance: magnitude
-
FGM status
-
FGM DC magnetic field, interval centred data from primary sensor
-
Normalised magnetic variance: summed component variances
-
Normalised magnetic variance: magnitude
-
Cluster Spacecraft 1 FluxGate Magnetometer (FGM) Spin-Resolution Parameters - Andre Balogh>a.balogh@imperial.ac.uk & Elizabeth Lucek>e.lucek@imperial.ac.uk & ESA CAA (Imperial College)
-
Cluster, Monthly JSOC Predicted Solar Cycle Trends - M. Hapgood (RAL)
-
Cluster Spacecraft 1, PEACE Prime Parameters - A. Fazakerley (MSSL) Cluster Spacecraft 2, PEACE Prime Parameters - A. Fazakerley (MSSL) Cluster Spacecraft 3, PEACE Prime Parameters - A. Fazakerley (MSSL) Cluster Spacecraft 4, PEACE Prime Parameters - A. Fazakerley (MSSL) Cluster, PEACE Summary Parameters - A. Fazakerley (MSSL)
-
Cluster, JSOC Predicted Geometric Positions - M. Hapgood (RAL)
-
Cluster Spacecraft 1, JSOC Predicted Magnetic Positions - M. Hapgood (RAL) Cluster Spacecraft 2, JSOC Predicted Magnetic Positions - M. Hapgood (RAL) Cluster Spacecraft 3, JSOC Predicted Magnetic Positions - M. Hapgood (RAL) Cluster Spacecraft 4, JSOC Predicted Magnetic Positions - M. Hapgood (RAL)
-
Cluster Spacecraft 1, JSOC Predicted Scientific Events - M. Hapgood (RAL) Cluster Spacecraft 2, JSOC Predicted Scientific Events - M. Hapgood (RAL) Cluster Spacecraft 3, JSOC Predicted Scientific Events - M. Hapgood (RAL) Cluster Spacecraft 4, JSOC Predicted Scientific Events - M. Hapgood (RAL) Cluster centroid, JSOC Predicted Scientific Events - M. Hapgood (RAL)
-
[NO PLOTS] Code for predicted event
-
Orbit Number: Integer part (non-event times do not plot)
-
[NO PLOTS] Code for predicted event sub type
-
Orbit phase, fractional part of orbit number (non-event times do not plot)
-
Predicted gse Latitude of sc, Angle from Ecliptic Plane (non-event times do not plot)
-
Predicted magnetic local time of satellite (non-event times do not plot)
-
Spacecraft position at predicted event (non-event times do not plot)
-
[NO PLOTS] Code for predicted event
-
Orbit Number: Integer part (non-event times do not plot)
-
[NO PLOTS] Code for predicted event sub type
-
Orbit phase, fractional part of orbit number (non-event times do not plot)
-
Predicted gse Latitude of sc, Angle from Ecliptic Plane (non-event times do not plot)
-
Predicted magnetic local time of satellite (non-event times do not plot)
-
Spacecraft position at predicted event (non-event times do not plot)
-
[LIST ONLY] Code for predicted event
-
Orbit Number: Integer part (non-event times do not plot)
-
[LIST ONLY] Code for predicted event sub type
-
Orbit phase, fractional part of orbit number (non-event times do not plot)
-
Predicted gse Latitude of sc, Angle from Ecliptic Plane (non-event times do not plot)
-
Predicted magnetic local time of satellite (non-event times do not plot)
-
Spacecraft position at predicted event (non-event times do not plot)
-
[NO PLOTS] Code for predicted event
-
Orbit Number: Integer part (non-event times do not plot)
-
[NO PLOTS] Code for predicted event sub type
-
Orbit phase, fractional part of orbit number (non-event times do not plot)
-
Predicted gse Latitude of sc, Angle from Ecliptic Plane (non-event times do not plot)
-
Predicted magnetic local time of satellite (non-event times do not plot)
-
Spacecraft position at predicted event (non-event times do not plot)
-
[NO PLOTS] Code for predicted event
-
Orbit Number: Integer part (non-event times do not plot)
-
[NO PLOTS] Code for predicted event sub type
-
Orbit phase, fractional part of orbit number (non-event times do not plot)
-
Predicted gse Latitude of sc, Angle from Ecliptic Plane (non-event times do not plot)
-
Predicted magnetic local time of satellite (non-event times do not plot)
-
Spacecraft position at predicted event (non-event times do not plot)
-
Cluster Spacecraft 1, RAPID Prime Parameters - B. Wilken and P. Daly (MPAe) Cluster Spacecraft 2, RAPID Prime Parameters - B. Wilken and P. Daly (MPAe) Cluster Spacecraft 3, RAPID Prime Parameters - B. Wilken and P. Daly (MPAe) Cluster Spacecraft 4, RAPID Prime Parameters - B. Wilken and P. Daly (MPAe) Cluster, RAPID Summary Parameters - B. Wilken and P. Daly (MPAe)
-
RAPID status
-
Electron Flux (E>30 kev), Integral flux averaged over 4 pi
-
Electron Flux (E>100 kev), Integral flux averaged over 4 pi
-
Proton Flux (E>30 kev), Integral flux averaged over 4 pi
-
Proton Flux (E>100 kev), Integral flux averaged over 4 pi
-
Helium Flux (E>50 kev), Integral flux averaged over 4 pi
-
Helium Flux (E>150 kev), Integral flux averaged over 4 pi
-
Ion Flux (m>4, E>100 kev), Integral heavy ion flux averaged over 4 pi
-
Ion Flux (m>4, E>300 kev), Integral heavy ion flux averaged over 4 pi
-
Field-aligned electron anisotropy (E>30 kev, (J(0)-J(180))/(J(0)+J(180))
-
Field-aligned proton anisotropy (E>30 kev, (J(0)-J(180))/(J(0)+J(180))
-
RAPID status
-
Electron Flux (E>30 kev), Integral flux averaged over 4 pi
-
Electron Flux (E>100 kev), Integral flux averaged over 4 pi
-
Proton Flux (E>30 kev), Integral flux averaged over 4 pi
-
Proton Flux (E>100 kev), Integral flux averaged over 4 pi
-
Helium Flux (E>50 kev), Integral flux averaged over 4 pi
-
Helium Flux (E>150 kev), Integral flux averaged over 4 pi
-
Ion Flux (m>4, E>100 kev), Integral heavy ion flux averaged over 4 pi
-
Ion Flux (m>4, E>300 kev), Integral heavy ion flux averaged over 4 pi
-
Field-aligned electron anisotropy (E>30 kev, (J(0)-J(180))/(J(0)+J(180))
-
Field-aligned proton anisotropy (E>30 kev, (J(0)-J(180))/(J(0)+J(180))
-
RAPID status
-
Electron Flux (E>30 kev), Integral flux averaged over 4 pi
-
Electron Flux (E>100 kev), Integral flux averaged over 4 pi
-
Proton Flux (E>30 kev), Integral flux averaged over 4 pi
-
Proton Flux (E>100 kev), Integral flux averaged over 4 pi
-
Helium Flux (E>50 kev), Integral flux averaged over 4 pi
-
Helium Flux (E>150 kev), Integral flux averaged over 4 pi
-
Ion Flux (m>4, E>100 kev), Integral heavy ion flux averaged over 4 pi
-
Ion Flux (m>4, E>300 kev), Integral heavy ion flux averaged over 4 pi
-
Field-aligned electron anisotropy (E>30 kev, (J(0)-J(180))/(J(0)+J(180))
-
Field-aligned proton anisotropy (E>30 kev, (J(0)-J(180))/(J(0)+J(180))
-
RAPID status
-
Electron Flux (E>30 kev), Integral flux averaged over 4 pi
-
Electron Flux (E>100 kev), Integral flux averaged over 4 pi
-
Proton Flux (E>30 kev), Integral flux averaged over 4 pi
-
Proton Flux (E>100 kev), Integral flux averaged over 4 pi
-
Helium Flux (E>50 kev), Integral flux averaged over 4 pi
-
Helium Flux (E>150 kev), Integral flux averaged over 4 pi
-
Ion Flux (m>4, E>100 kev), Integral heavy ion flux averaged over 4 pi
-
Ion Flux (m>4, E>300 kev), Integral heavy ion flux averaged over 4 pi
-
Field-aligned electron anisotropy (E>30 kev, (J(0)-J(180))/(J(0)+J(180))
-
Field-aligned proton anisotropy (E>30 kev, (J(0)-J(180))/(J(0)+J(180))
-
RAPID status
-
Electron Flux (E>30 kev), Integral flux averaged over 4 pi
-
Electron Flux (E>100 kev), Integral flux averaged over 4 pi
-
Proton Flux (E>30 kev), Integral flux averaged over 4 pi
-
Proton Flux (E>100 kev), Integral flux averaged over 4 pi
-
Helium Flux (E>50 kev), Integral flux averaged over 4 pi
-
Helium Flux (E>150 kev), Integral flux averaged over 4 pi
-
Ion Flux (m>4, E>100 kev), Integral heavy ion flux averaged over 4 pi
-
Ion Flux (m>4, E>300 kev), Integral heavy ion flux averaged over 4 pi
-
Field-aligned electron anisotropy (E>30 kev, (J(0)-J(180))/(J(0)+J(180))
-
Field-aligned proton anisotropy (E>30 kev, (J(0)-J(180))/(J(0)+J(180))
-
Link to full set of Cluster data at University of Iowa - D. Gurnett (U. Iowa)
-
Cluster Spacecraft 1, STAFF Prime Parameters - N. Cornilleau-Wehrlin (CETP) Cluster Spacecraft 2, STAFF Prime Parameters - N. Cornilleau-Wehrlin (CETP) Cluster Spacecraft 3, STAFF Prime Parameters - N. Cornilleau-Wehrlin (CETP) Cluster Spacecraft 4, STAFF Prime Parameters - N. Cornilleau-Wehrlin (CETP) Cluster, STAFF Summary Parameters - N. Cornilleau-Wehrlin (CETP)
-
STAFF status
-
WEC status
-
Magnetic Field Par to Bo, Frequency Range 0.3 - 10 Hz
-
Magnetic Field Par to Bo, Frequency Range 10 - 180 Hz
-
Magnetic Field Par to Bo, Frequency Range 180 - 4000 Hz
-
Magnetic Field Perp to Bo, Frequency Range 0.3 - 10 Hz
-
Magnetic Field Perp to Bo, Frequency Range 10 - 180 Hz
-
Magnetic Field Perp to Bo, Frequency Range 180 - 4000 Hz
-
E-field Spectral Density, Frequency Range 10 - 180 Hz from STAFF Spectrum analyser
-
E-field Spectral Density, Frequency Range 180 - 4000 Hz from STAFF Spectrum Analyser
-
STAFF status
-
WEC status
-
Magnetic Field Par to Bo, Frequency Range 0.3 - 10 Hz
-
Magnetic Field Par to Bo, Frequency Range 10 - 180 Hz
-
Magnetic Field Par to Bo, Frequency Range 180 - 4000 Hz
-
Magnetic Field Perp to Bo, Frequency Range 0.3 - 10 Hz
-
Magnetic Field Perp to Bo, Frequency Range 10 - 180 Hz
-
Magnetic Field Perp to Bo, Frequency Range 180 - 4000 Hz
-
E-field Spectral Density, Frequency Range 10 - 180 Hz from STAFF Spectrum analyser
-
E-field Spectral Density, Frequency Range 180 - 4000 Hz from STAFF Spectrum Analyser
-
STAFF status
-
WEC status
-
Magnetic Field Par to Bo, Frequency Range 0.3 - 10 Hz
-
Magnetic Field Par to Bo, Frequency Range 10 - 180 Hz
-
Magnetic Field Par to Bo, Frequency Range 180 - 4000 Hz
-
Magnetic Field Perp to Bo, Frequency Range 0.3 - 10 Hz
-
Magnetic Field Perp to Bo, Frequency Range 10 - 180 Hz
-
Magnetic Field Perp to Bo, Frequency Range 180 - 4000 Hz
-
E-field Spectral Density, Frequency Range 10 - 180 Hz from STAFF Spectrum analyser
-
E-field Spectral Density, Frequency Range 180 - 4000 Hz from STAFF Spectrum Analyser
-
STAFF status
-
WEC status
-
Magnetic Field Par to Bo, Frequency Range 0.3 - 10 Hz
-
Magnetic Field Par to Bo, Frequency Range 10 - 180 Hz
-
Magnetic Field Par to Bo, Frequency Range 180 - 4000 Hz
-
Magnetic Field Perp to Bo, Frequency Range 0.3 - 10 Hz
-
Magnetic Field Perp to Bo, Frequency Range 10 - 180 Hz
-
Magnetic Field Perp to Bo, Frequency Range 180 - 4000 Hz
-
E-field Spectral Density, Frequency Range 10 - 180 Hz from STAFF Spectrum analyser
-
E-field Spectral Density, Frequency Range 180 - 4000 Hz from STAFF Spectrum Analyser
-
[NO PLOTS] STAFF status
-
WEC status
-
B-field Spectral Density, Frequency Range 0.3 - 10 Hz
-
B-field Spectral Density, Frequency Range 10 - 180 Hz
-
B-field Spectral Density, Frequency Range 180 - 4000 Hz
-
E-field Spectral Density, Frequency Range 10 - 180 Hz from STAFF Spectrum analyser
-
E-field Spectral Density, Frequency Range 180 - 4000 Hz from STAFF Spectrum Analyser
-
Cluster Wideband Data Plasma Wave Receiver/High Time Resolution Waveform Data - 2006 - Current: J. S. Pickett; 1988 - 2006: D. A. Gurnett (The University of Iowa) Cluster Wideband Data Plasma Wave Receiver/High Time Resolution Waveform Data - 2006 - Current: J. S. Pickett; 1988 - 2006: D. A. Gurnett (The University of Iowa) Cluster Wideband Data Plasma Wave Receiver/High Time Resolution Waveform Data - 2006 - Current: J. S. Pickett; 1988 - 2006: D. A. Gurnett (The University of Iowa) Cluster Wideband Data Plasma Wave Receiver/High Time Resolution Waveform Data - 2006 - Current: J. S. Pickett; 1988 - 2006: D. A. Gurnett (The University of Iowa)
-
Frequency Bandwidth: 9.5 kHz, 19 kHz, 77 kHz
-
Base freq. of freq. bandwidth (0.0, 125.454, 250.908, and 501.816 kHz)
-
Number of bits used when digitizing waveform (8-bit, 4-bit, or 1-bit)
-
Antenna (0=Ez, 1=Bx, 2=By, 3=Ey)
-
Gain state of WBD instrument
-
Total angle between antenna used for WBD measurement and measured B field direction
-
Total angle between the Xgse axis and the antenna direction
-
Total angle between Ygse axis and the projection of the antenna direction in the Ygse-Zgse plane
-
DC Offset used when converting from raw digital values to calibrated data
-
Calibrated AC WBD Electric Field
-
Calibrated AC WBD Magnetic Field
-
Data Quality: 0 = OK, 1 = clipped or questionable, 2 = bad data point.
-
Frequency Bandwidth: 9.5 kHz, 19 kHz, 77 kHz
-
Base freq. of freq. bandwidth (0.0, 125.454, 250.908, and 501.816 kHz)
-
Number of bits used when digitizing waveform (8-bit, 4-bit, or 1-bit)
-
Antenna (0=Ez, 1=Bx, 2=By, 3=Ey)
-
Gain state of WBD instrument
-
Total angle between antenna used for WBD measurement and measured B field direction
-
Total angle between the Xgse axis and the antenna direction
-
Total angle between Ygse axis and the projection of the antenna direction in the Ygse-Zgse plane
-
DC Offset used when converting from raw digital values to calibrated data
-
Calibrated AC WBD Electric Field
-
Calibrated AC WBD Magnetic Field
-
Data Quality: 0 = OK, 1 = clipped or questionable, 2 = bad data point.
-
Frequency Bandwidth: 9.5 kHz, 19 kHz, 77 kHz
-
Base freq. of freq. bandwidth (0.0, 125.454, 250.908, and 501.816 kHz)
-
Number of bits used when digitizing waveform (8-bit, 4-bit, or 1-bit)
-
Antenna (0=Ez, 1=Bx, 2=By, 3=Ey)
-
Gain state of WBD instrument
-
Total angle between antenna used for WBD measurement and measured B field direction
-
Total angle between the Xgse axis and the antenna direction
-
Total angle between Ygse axis and the projection of the antenna direction in the Ygse-Zgse plane
-
DC Offset used when converting from raw digital values to calibrated data
-
Calibrated AC WBD Electric Field
-
Calibrated AC WBD Magnetic Field
-
Data Quality: 0 = OK, 1 = clipped or questionable, 2 = bad data point.
-
Frequency Bandwidth: 9.5 kHz, 19 kHz, 77 kHz
-
Base freq. of freq. bandwidth (0.0, 125.454, 250.908, and 501.816 kHz)
-
Number of bits used when digitizing waveform (8-bit, 4-bit, or 1-bit)
-
Antenna (0=Ez, 1=Bx, 2=By, 3=Ey)
-
Gain state of WBD instrument
-
Total angle between antenna used for WBD measurement and measured B field direction
-
Total angle between the Xgse axis and the antenna direction
-
Total angle between Ygse axis and the projection of the antenna direction in the Ygse-Zgse plane
-
DC Offset used when converting from raw digital values to calibrated data
-
Calibrated AC WBD Electric Field
-
Calibrated AC WBD Magnetic Field
-
Data Quality: 0 = OK, 1 = clipped or questionable, 2 = bad data point.
-
Cluster Spacecraft 1, WHISPER Prime Parameters - P.M.E. Decreau (LPCE) Cluster Spacecraft 2, WHISPER Prime Parameters - P.M.E. Decreau (LPCE) Cluster Spacecraft 3, WHISPER Prime Parameters - P.M.E. Decreau (LPCE) Cluster Spacecraft 4, WHISPER Prime Parameters - P.M.E. Decreau (LPCE) Cluster, WHISPER Summary Parameters - P.M.E. Decreau (LPCE)
-
WHISPER status
-
WEC status
-
Preliminary electron density derived from plasma frequency recognition (consult quality flag and PI before use)
-
Quality of the resonance recognition, Degree of confidence between 0 and 100
-
E-field Spectral Density, Freq range 4-10 kHz from WHISPER natural noise analyser
-
E-field spectral density, Freq range 10-20 kHz from WHISPER natural noise analyser
-
E-field spectral density, Freq range 20-80 kHz from WHISPER natural nopise analyser
-
Normalized standard deviation of E power in 2-80 kHz range from time samples
-
WHISPER status
-
WEC status
-
Preliminary electron Density derived from plasma frequency recognition (consult quality flag and PI before use)
-
Quality of the resonance recognition, Degree of confidence between 0 and 100
-
E-field Spectral Density, Freq range 4-10 kHz from WHISPER natural noise analyser
-
E-field spectral density, Freq range 10-20 kHz from WHISPER natural noise analyser
-
E-field spectral density, Freq range 20-80 kHz from WHISPER natural nopise analyser
-
Normalized standard deviation of E power in 2-80 kHz range from time samples
-
WHISPER status
-
WEC status
-
Preliminary electron Density derived from plasma frequency recognition (consult quality flag and PI before use)
-
Quality of the resonance recognition, Degree of confidence between 0 and 100
-
E-field Spectral Density, Freq range 4-10 kHz from WHISPER natural noise analyser
-
E-field spectral density, Freq range 10-20 kHz from WHISPER natural noise analyser
-
E-field spectral density, Freq range 20-80 kHz from WHISPER natural nopise analyser
-
Normalized standard deviation of E power in 2-80 kHz range from time samples
-
WHISPER status
-
WEC status
-
Preliminary electron Density derived from plasma frequency recognition (consult quality flag and PI before use)
-
Quality of the resonance recognition, Degree of confidence between 0 and 100
-
E-field Spectral Density, Freq range 4-10 kHz from WHISPER natural noise analyser
-
E-field spectral density, Freq range 10-20 kHz from WHISPER natural noise analyser
-
E-field spectral density, Freq range 20-80 kHz from WHISPER natural nopise analyser
-
Normalized standard deviation of E power in 2-80 kHz range from time samples
-
WHISPER status
-
WEC status
-
Preliminary electron density derived from plasma frequency recognition (consult quality flagand PI before use)
-
Quality of the resonance recognition, Degree of confidence between 0 and 100
-
E-field Spectral Density, Freq range 4-80 kHz from WHISPER natural noise analyser
-
6sec EICS SAI UA16S duct16ms ion2s neutral1s plasma500ms vion250ms wind2s
-
DE-1 Magnetometer (MAG-A) 6 second GMS Data - Dr. Masahisa Sugiura (NASA/GSFC)
-
DE-1 Energetic Ion Composition Spectrometer (EICS), Validated Summary Data - E. G. Shelley (Lockheed Martin)
-
DE-1 Spin-scan Auroral Imager (SAI) Ultraviolet Images - Louis A. Frank (The Univ. of Iowa)
-
16-sec combined neutral and plasma unified abstract (UA) data - Mr. Larry H. Brace (NASA/GSFC)
-
16-msec total ion densities - Rod Heelis (University of Texas, Dallas)
-
2-sec ion temperature, velocity, and densities (O+, H+, He+, molecular) - Rod Heelis (University of Texas, Dallas)
-
1-sec ambient densities and error rates - Nelson W. Spencer (NASA/GSFC)
-
.5 sec electron temperature, plasma density, and satellite potential - Larry H. Brace (NASA/GSFC)
-
250-msec cross track ion drift velocities - Rod Heelis (University of Texas, Dallas)
-
2-sec neutral densities, temperature, and horizontal (zonal) wind velocity - Nelson W. Spencer (NASA/GSFC)
-
ssies ssj4
-
Link to DMSP thermal plasma analysis package data service at the Center for Space Sciences, University of Texas at Dallas. - Center for Space Sciences (UTD)
-
Link to DMSP low energy electron/ion plots and data at JHU/APL - Hardy (AFGL)
-
AUX EDI EPI ICI MAM PCD SFD
-
Equator-S Auxiliary Data Prime Parameters - EDC (MPE)
-
Equator-S Electron Drift Instrument Prime Parameters - G. Paschmann (MPE)
-
Equator-S Energetic Particle Instrument Prime Parameters - T. Sanderson (ESTEC)
-
Equator-S Ion Composition Instrument Prime Parameters.(The raw moments calculated onboard should only be used qualitatively for identifying regions and temporal variations. Quantitative analysis should be done with the final moments generated from telemetered 3D distributions.) - L. Kistler (UNH)
-
ICI status flags for operational modes, data compression, scalar ([0]: 0=bad,1=caution,2=OK)
-
Final proton density (3d), scalar
-
Final oxygen+ density (3d), scalar
-
Final Helium+ density (3d), scalar
-
Final proton bulk velocity (3d), vector GSE
-
Final oxygen+ bulk velocity (3d), vector GSE
-
Final proton temperature (3d), scalar
-
Final oxygen+ temperature (3d), scalar
-
Final Helium+ bulk velocity (3d), vector GSE
-
Final proton temperature tensor (3d), 1 parallel and 2 perpendicular GSE components
-
Final oxygen+ temperature tensor (3d), 1 parallel and 2 perpendicular GSE components
-
Final Helium+ temperature (3d), scalar
-
Raw proton density (onboard), scalar
-
Raw oxygen+ density (onboard), scalar
-
Raw proton bulk velocity (onboard), vector SCS
-
Raw oxygen+ bulk velocity (onboard), vector SCS
-
Raw proton temperature (onboard), scalar
-
Raw oxygen+ temperature (onboard), scalar
-
Raw proton bulk velocity (onboard), vector GSE
-
Raw oxygen+ bulk velocity (onboard), vector GSE
-
Equator-S Fluxgate Magnetometer Prime Parameters - W. Baumjohann (MPE)
-
Equator-S Potential Control Device Prime Parameters - K. Torkar (IWF)
-
Equator-S Scintillating Fibre Detector Summary Parameters - L. Adams (ESTEC)
-
ACF DCF EES IES TMS
-
FAST AC Fields - Key Parameters - C. Carlson (U.C. Berkeley)
-
Electric field power spectral density (0-2 MHz), in 59 fixed frequency bins of width 32 kHz
-
Electric field power spectral density (0-16 kHz), in 56 fixed frequency bins
-
Electric field power spectral density (0-2 kHz), in 62 fixed frequency bins
-
Magnetic field power spectral density (0-2 MHz), in 59 fixed frequency bins of width 32 kHz
-
Magnetic field power spectral density (0-16 kHz), in 56 fixed frequency bins
-
Magnetic field power spectral density (0-2 kHz), in 62 fixed frequency bins
-
array containing HF Electric Power and HF Magnetic Power (0-2 MHz)
-
array containing VLF Electric Power and VLF Magnetic Power (0-16 kHz)
-
array containing ELF Electric Power and ELF Magnetic Power (0-2 kHz)
-
Right Ascension of Spin Axis, degrees, GEI coords
-
Declination of Spin Axis, degrees, GEI coords
-
FAST Spacecraft position, cartesian 3 vector, GEI coords, km
-
FAST Spacecraft velocity, cartesian 3 vector, GEI coords, km/s
-
Spacecraft altitude above an equatorial earth radius of 6378.14 km, km
-
Geodetic latitude of magnetic footprint at 100 km above the oblate earth, deg
-
Geodetic longitude of magnetic footprint at 100 km above the oblate earth, deg
-
Magnetic Local Time, hours
-
Invariant Latitude, degrees
-
Time axis label: Right Ascension of Spin Axis, degrees, GEI coords
-
Time axis label: Declination of Spin Axis, degrees, GEI coords
-
Time axis label: FAST Spacecraft position, cartesian 3 vector, GEI coords, km
-
Time axis label: FAST Spacecraft velocity, cartesian 3 vector, GEI coords, km/s
-
Time axis label: Spacecraft altitude above an equatorial earth radius of 6378.14 km, km
-
Time axis label: Geodetic latitude of magnetic footprint at 100 km above the oblate earth, deg
-
Time axis label: Geodetic longitude of magnetic footprint at 100 km above the oblate earth, deg
-
Time axis label: Magnetic Local Time, hours
-
Time axis label: Invariant Latitude, degrees
-
FAST DC Fields - Key Parameters - C. Carlson (U.C. Berkeley)
-
DC electric field, perpendicular to spin plane projection of B, positive equatorward
-
DC electric field along spin plane projection of B
-
Probe current, proxy for plasma density, very roughly 1 nA/(cm**-3)
-
Delta B, perpendicular to spin plane projection of B, positive equatorward
-
Delta B, aligned with spin axis, closest to west (corrected)
-
Delta B, along spin plane projection of B
-
Spacecraft potential as determined from average of four sphere potentials
-
Angle between the local magnetic field and the spin plane, degrees
-
Right ascension of spin axis, degrees, GEI coords
-
Declination of spin axis, degrees, GEI coords
-
FAST spacecraft position, cartesian 3 vector, GEI coords, km
-
FAST spacecraft velocity, cartesian 3 vector, GEI coords, km/s
-
Spacecraft altitude above an equatorial earth radius of 6378.14 km, km
-
Geodetic latitude of magnetic footprint at 100 km above the oblate earth, deg
-
Geodetic longitude of magnetic footprint at 100 km above the oblate earth, deg
-
Magnetic local time, hours
-
Invariant latitude, degrees
-
DO NOT USE (under development) - Angle between the local magnetic field and the spin plane, degrees
-
Time axis label: Right ascension of spin axis, degrees, GEI coords
-
Time axis label: Declination of spin axis, degrees, GEI coords
-
Time axis label: FAST spacecraft position, cartesian 3 vector, GEI coords, km
-
Time axis label: FAST spacecraft velocity, cartesian 3 vector, GEI coords, km/s
-
Time axis label: Spacecraft altitude above an equatorial earth radius of 6378.14 km, km
-
Time axis label: Geodetic latitude of magnetic footprint at 100 km above the oblate earth, deg
-
Time axis label: Geodetic longitude of magnetic footprint at 100 km above the oblate earth, deg
-
Time axis label: Magnetic local time, hours
-
Time axis label: Invariant latitude, degrees
-
FAST Electron (4eV-30keV) Analyzers - 5-s Survey/Key Parameters - C. Carlson (U.C. Berkeley)
-
e- diff energy flux, 0-30 pitchangle, 1 spin ave, 47 energies, 4-30000 eV
-
e- diff energy flux, 60-120 pitchangle, 1 spin ave, 47 energies, 4-30000 eV
-
e- diff energy flux, 150-180 pitchangle, 1 spin ave, 47 energies, 4-30000 eV
-
-----> [SLOWLY VARYING] Electron Energies for el_0, el_90, el_180
-
e- diff energy flux, 0.1-1.0 keV, 1 spin ave, 32 pitch angles, -90 to 270 deg
-
-----> e- pitch angle array for el_low
-
e- diff energy flux, 1.0-30.0 keV, 1 spin ave, 32 pitch angles, -90 to 270 deg
-
-----> e- pitch angle array for el_high
-
Integrated e- energy flux, positive earthward, 1 spin ave, mapped to Bfoot, 100km
-
Integrated e- number flux, positive earthward, 1 spin ave, mapped to Bfoot, 100km
-
Right Ascension of Spin Axis, degrees, GEI coords
-
Declination of Spin Axis, degrees, GEI coords
-
FAST Spacecraft position, cartesian 3 vector, GEI coords, km
-
FAST Spacecraft velocity, cartesian 3 vector, GEI coords, km/s
-
Spacecraft altitude above an equatorial earth radius of 6378.14 km, km
-
Geodetic latitude of magnetic footprint at 100 km above the oblate earth, deg
-
Geodetic longitude of magnetic footprint at 100 km above the oblate earth, deg
-
Magnetic Local Time, hours
-
Invariant Latitude, degrees
-
Time axis label: Right Ascension of Spin Axis, degrees, GEI coords
-
Time axis label: Declination of Spin Axis, degrees, GEI coords
-
Time axis label: FAST Spacecraft position, cartesian 3 vector, GEI coords, km
-
Time axis label: FAST Spacecraft velocity, cartesian 3 vector, GEI coords, km/s
-
Time axis label: Spacecraft altitude above an equatorial earth radius of 6378.14 km, km
-
Time axis label: Geodetic latitude of magnetic footprint at 100 km above the oblate earth, deg
-
Time axis label: Geodetic longitude of magnetic footprint at 100 km above the oblate earth, deg
-
Time axis label: Magnetic Local Time, hours
-
Time axis label: Invariant Latitude, degrees
-
FAST Ion (3eV-25eV) Analyzers - 5-s Survey/Key Parameters - C. Carlson (U.C. Berkeley)
-
Ion diff energy flux, 0-30 pitchangle, 1 spin ave, 47 energies, 3-25000 eV
-
Ion diff energy flux, 40-140 pitchangle, 1 spin ave, 47 energies, 3-25000 eV
-
Ion diff energy flux, 150-180 pitchangle, 1 spin ave, 47 energies, 3-25000 eV
-
-----> [SLOWLY VARYING] Ion Energies for ion_0, ion_90, ion_180
-
Ion diff energy flux, 0.05-1.0 keV, 1 spin ave, 32 pitch angles, -90 to 270 deg
-
-----> Ion pitch angle array for ion_low
-
Ion diff energy flux, 1.0-25.0 keV, 1 spin ave, 32 pitch angles, -90 to 270 deg
-
-----> Ion pitch angle array for ion_high
-
Integrated ion energy flux, positive earthward, 1 spin ave, mapped to Bfoot, 100km
-
Integrated ion number flux, positive earthward, 1 spin ave, mapped to Bfoot, 100km
-
Right Ascension of Spin Axis, degrees, GEI coords
-
Declination of Spin Axis, degrees, GEI coords
-
FAST Spacecraft position, cartesian 3 vector, GEI coords, km
-
FAST Spacecraft velocity, cartesian 3 vector, GEI coords, km/s
-
Spacecraft altitude above an equatorial earth radius of 6378.14 km, km
-
Geodetic latitude of magnetic footprint at 100 km above the oblate earth, deg
-
Geodetic longitude of magnetic footprint at 100 km above the oblate earth, deg
-
Magnetic Local Time, hours
-
Invariant Latitude, degrees
-
Time axis label: Right Ascension of Spin Axis, degrees, GEI coords
-
Time axis label: Declination of Spin Axis, degrees, GEI coords
-
Time axis label: FAST Spacecraft position, cartesian 3 vector, GEI coords, km
-
Time axis label: FAST Spacecraft velocity, cartesian 3 vector, GEI coords, km/s
-
Time axis label: Spacecraft altitude above an equatorial earth radius of 6378.14 km, km
-
Time axis label: Geodetic latitude of magnetic footprint at 100 km above the oblate earth, deg
-
Time axis label: Geodetic longitude of magnetic footprint at 100 km above the oblate earth, deg
-
Time axis label: Magnetic Local Time, hours
-
Time axis label: Invariant Latitude, degrees
-
FAST Energy Angle Mass Spectrograph - 5-s Survey/Key Parameters - C. Carlson (U.C. Berkeley)
-
H+ diff energy flux, 0-360 pitchangle, 48 energies, 1-12000 eV
-
-----> [SLOWLY VARYING] H+ energies for H+ variable
-
H+ diff energy flux, 0.01-1 keV, 16 pitch angles, 0-360 deg
-
-----> H+ pitch angles for H+_low
-
H+ diff energy flux, >1 keV, 16 pitch angles, 0-360 deg
-
-----> H+ pitch angles for H+_high
-
O+ diff energy flux, 0-360 pitchangle, 48 energies, 1-12000 eV
-
-----> [SLOWLY VARYING] O+ energies for O+ variable
-
O+ diff energy flux, 0.01-1 keV, 16 pitch angles, 0-360 deg
-
-----> O+ pitch angles for O+_low
-
O+ diff energy flux, >1 keV, 16 pitch angles, 0-360 deg
-
-----> O+ pitch angles for O+_high
-
He+ diff energy flux, 0-360 pitchangle, 48 energies, 1-12000 eV
-
-----> [SLOWLY VARYING] He+ energies for He+ variable
-
He+ diff energy flux, 0.01-1 keV, 16 pitch angles, 0-360 deg
-
-----> He+ pitch angles for He+_low
-
He+ diff energy flux, >1 keV, 16 pitch angles, 0-360 deg
-
-----> He+ pitch angles for He+_high
-
Right Ascension of Spin Axis, degrees, GEI coords
-
Declination of Spin Axis, degrees, GEI coords
-
FAST Spacecraft position, cartesian 3 vector, GEI coords, km
-
FAST Spacecraft velocity, cartesian 3 vector, GEI coords, km/s
-
Spacecraft altitude above an equatorial earth radius of 6378.14 km, km
-
Geodetic latitude of magnetic footprint at 100 km above the oblate earth, deg
-
Geodetic longitude of magnetic footprint at 100 km above the oblate earth, deg
-
Magnetic Local Time, hours
-
Invariant Latitude, degrees
-
Time axis label: Right Ascension of Spin Axis, degrees, GEI coords
-
Time axis label: Declination of Spin Axis, degrees, GEI coords
-
Time axis label: FAST Spacecraft position, cartesian 3 vector, GEI coords, km
-
Time axis label: FAST Spacecraft velocity, cartesian 3 vector, GEI coords, km/s
-
Time axis label: Spacecraft altitude above an equatorial earth radius of 6378.14 km, km
-
Time axis label: Geodetic latitude of magnetic footprint at 100 km above the oblate earth, deg
-
Time axis label: Geodetic longitude of magnetic footprint at 100 km above the oblate earth, deg
-
Time axis label: Magnetic Local Time, hours
-
Time axis label: Invariant Latitude, degrees
-
EP8 EPS MAG
-
GOES 10 Energetic Particle Sensor, Key Parameters - T. Onsager (NOAA SEC) GOES 11 Energetic Particle Sensor, Key Parameters - T. Onsager (NOAA SEC) GOES 12 Energetic Particle Sensor, Key Parameters - T. Onsager (NOAA SEC) GOES 8 Energetic Particle Sensor, Key Parameters - T. Onsager (NOAA SEC) GOES 9 Energetic Particle Sensor, Key Parameters - T. Onsager (NOAA SEC)
-
GOES Electron Flux (> 0.6 MeV)
-
GOES Electron Flux (> 2 MeV)
-
GOES Electron Flux (> 4 MeV)
-
GOES Uncor. Diff. Proton Flux (0.7-4 MeV)
-
GOES 10 position, Geographic, Polar Coordinates
-
GOES 10 position, Geographic, Cartesian Coordinates
-
GOES 10 position, GSE
-
GOES 10 position, GSM
-
GOES Electron Flux (> 0.6 MeV)
-
GOES Electron Flux (> 2 MeV)
-
GOES Electron Flux (> 4 MeV)
-
GOES Uncor. Diff. Proton Flux (0.7-4 MeV)
-
GOES 11 position, Geographic Polar Coordinates
-
GOES 11 position, Geographics, Cartesian Coordinates
-
GOES 11 position, GSE
-
GOES 11 position, GSM
-
GOES Elecron Flux (> 0.6 MeV)
-
GOES Elecron Flux (> 2 MeV)
-
GOES Electron Flux (> 4 MeV)
-
GOES Uncor. Diff. Proton Flux (0.7-4 MeV)
-
GOES-8 position, Geographic, Polar Coordinates
-
GOES-8 position, Geographic, Cartesian Coordinates
-
GOES-8 position, GSE
-
GOES-8 position, GSM
-
GOES Elecron Flux (> 0.6 MeV)
-
GOES Elecron Flux (> 2 MeV)
-
GOES Electron Flux (> 4 MeV)
-
GOES Uncor. Diff. Proton Flux (0.7-4 MeV)
-
GOES-9 position, Geographic, Polar Coordinates
-
GOES-9 position, Geographic, Cartesian Coordinates
-
GOES-9 position, GSE
-
GOES-9 position, GSM
-
GOES 6 Energetic Particle Sensor, Key Parameters - H. Sauer (NOAA) GOES 7 Energetic Particle Sensor, Key Parameters - H. Sauer (NOAA)
-
Electon flux>2 MeV (protons >40 MeV), scalar
-
Uncor. dif. Proton Flux (.6-4.2 MeV), scalar
-
GOES 6 s/c position, Geographic, Polar Coordinates
-
GOES 6 s/c position, Geographic, Cartesian Coordinates
-
GOES 6 s/c position, GSE x,y,z
-
GOES 6 s/c position, GSM x,y,z
-
Electon flux>2 MeV (protons >40 MeV), scalar
-
Uncor. dif. Proton Flux (.6-4.2 MeV), scalar
-
GOES 7 s/c position, Geographic, Polar Coordinates
-
GOES 7 s/c position, Geographic, Cartesian Coordinates
-
GOES 7 s/c position, GSE x,y,z
-
GOES 7 s/c position, GSM x,y,z
-
GOES 10 Magnetometer Key Parameters - H. Singer (NOAA SEC) GOES 11 Magnetometer Key Parameters - H. Singer (NOAA SEC) GOES 12 Magnetometer Key Parameters - H. Singer (NOAA SEC) GOES 8 Magnetometer Key Parameters - H. Singer (NOAA SEC) GOES 9 Magnetometer Key Parameters - H. Singer (NOAA SEC) GOES-10 High Resolution Magnetometer data vectors (at 512 ms, ephem at 60 sec) - Howard J. Singer (NOAA Space Weather Prediction Center) GOES-11 High Resolution Magnetometer data vectors (at 512 ms, ephem at 60 sec) - Howard J. Singer (NOAA Space Weather Prediction Center) GOES-12 High Resolution Magnetometer data vectors (at 512 ms, ephem at 60 sec) - Howard J. Singer (NOAA Space Weather Prediction Center) GOES-6 Magnetometer Key Parameters - R. Zwickl (NOAA SEL) GOES-7 Magnetometer Calculated PSD for Hn - R. Zwickl (NOAA SEL) GOES-7 Magnetometer Key Parameters - R. Zwickl (NOAA SEL)
-
Magnetic Field, cartesian GSE
-
Magnetic Field, cartesian GSM
-
Magnetic Field, local s/c
-
GOES 10 position, Geographic
-
GOES 10 position, GEO
-
GOES 10 position, GSE
-
GOES 10 position, GSM
-
Magnetic Field, cartesian GSE
-
Magnetic Field, cartesian GSM
-
Mag. Field, local s/c
-
GOES 11 position, Geographic, Polar Coordinates
-
GOES 11 position, Geographic, Cartesian Coordinates
-
GOES 11 position, GSE
-
GOES 11 position, GSM
-
Magnetic Field, cartesian GSE
-
Magnetic Field, cartesian GSM
-
Mag. Field, local s/c
-
GOES 12 position, Geographic, Polar Coordinates
-
GOES 12 position, Geographic, Cartesian Coordinates
-
GOES 12 position, GSE
-
GOES 12 position, GSM
-
Magnetic Field, GSE
-
Magnetic Field (GSM)
-
Magnetic Field, local s/c coord
-
GOES-8 position, Geographic
-
GOES-8 position, GEO
-
GOES-8 position, GSE
-
GOES-8 position, GSM
-
MGF Instrument Status: 0=OK, 1=minor problems, 2=major problems, 3=missing data
-
Magnetic Field, GSE
-
Magnetic Field (GSM)
-
Magnetic Field, local s/c coord
-
GOES-9 position, Geographic
-
GOES-9 position, GEO
-
GOES-9 position, GSE
-
GOES-9 position, GSM
-
MGF Instrument Status: 0=OK, 1=minor problems, 2=major problems, 3=missing data
-
Satellite geographic west longitude at noon UTC
-
Magnetic local time at satellite position
-
Satellite position (GEI)
-
Satellite position (GSM)
-
Satellite velocity (GEI)
-
Satellite velocity (GSM)
-
Unit vector in GEI perp to orbital plane (parallel to Earth's spin axis for 0 inclination orbit)
-
Magnetic field in LH-ENP (P=northward Perp to orbital plane, E=Earthward perp to P and Earth center, N=eastward/LH Normal to P and E)
-
Magnetic field in GEI
-
Magnetic field in GSM
-
Total magnetic field strength
-
T1 magnetotorquer filtered counts
-
T2 magnetotorquer filtered counts
-
Data quality flag (7=good)
-
Satellite geographic west longitude at noon UTC
-
Magnetic local time at satellite position
-
Satellite position (GEI)
-
Satellite position (GSM)
-
Satellite velocity (GEI)
-
Satellite velocity (GSM)
-
Unit vector in GEI perp to orbital plane (parallel to Earth's spin axis for 0 inclination orbit)
-
Magnetic field in LH-ENP (P=northward Perp to orbital plane, E=Earthward perp to P and Earth center, N=eastward/LH Normal to P and E)
-
Magnetic field in GEI
-
Magnetic field in GSM
-
Total magnetic field strength
-
T1 magnetotorquer filtered counts
-
T2 magnetotorquer filtered counts
-
Data quality flag (7=good)
-
Satellite geographic west longitude at noon UTC
-
Magnetic local time at satellite position
-
Satellite position (GEI)
-
Satellite position (GSM)
-
Satellite velocity (GEI)
-
Satellite velocity (GSM)
-
Unit vector in GEI perp to orbital plane (parallel to Earth's spin axis for 0 inclination orbit)
-
Magnetic field in LH-ENP (P=northward Perp to orbital plane, E=Earthward perp to P and Earth center, N=eastward/LH Normal to P and E)
-
Magnetic field in GEI
-
Magnetic field in GSM
-
Total magnetic field strength
-
T1 magnetotorquer filtered counts
-
T2 magnetotorquer filtered counts
-
Data quality flag (7=good)
-
Magnetic Field, local spacecraft coordinates
-
s/c position, Cartesian GSE coordinates
-
s/c position, Cartesian GSM coordinates
-
H normal Power Spectral Density
-
Magnetic Field, local spacecraft coordinates
-
GOES 7 s/c position, Cartesian GSE coordinates
-
s/c position, Cartesian GSM coordinates
-
roti15min
-
GPS-deduced ROTI index:standard deviation of rate of change of Total Electron Content (TEC) in a 15 min interval; world maps and movies - Xiaoqing Pi (Jet Propulsion Laboratory)
-
ROTI, world map, expandable thumbnails
-
ROTI, world map, movie
-
ROTI, North polar proj., expandable thumbnails
-
ROTI, North polar proj., movie
-
ROTI, South polar proj., expandable thumbnails
-
ROTI, South polar proj., movie
-
Counts per bin, world map, expandable thumbnails
-
Counts per bin, world map, movie
-
Counts per bin, North polar proj., expandable thumbnails
-
Counts per bin, North polar proj., movie
-
Counts per bin, South polar proj., expandable thumbnails
-
Counts per bin, South polar proj., movie
-
GIM
-
Genesis Ion Monitor Experiment - Roger C. Wiens (LANL)
-
CPI EFD EPI LEP MERGED MGF PWI
-
Geotail Comprehensive Plasma Inst (CPI), Key Parameters - L. Frank (U. Iowa) Geotail Comprehensive Plasma Inst., 1min HPA Bulk Parameters - L. Frank (U. Iowa)
-
Ion number density (Solar Wind Analyzer), scalar
-
Ion Average Energy (Solar Wind Anal. s/c frame), scalar
-
Ion bulk flow velocity, 3 ~GSE cartesian components (SWA)
-
Ion Number Density (Hot Plasma 2D Anal), scalar
-
Ion Average Energy (Hot Plasma 2D Anal), scalar
-
Ion Bulk Flow Velocity, ~GSE X-Y components (Hot Plasma 2D Anal)
-
Average Electron Energy (Hot Plasma 2D Anal), scalar
-
Plasma Pressure (Hot Plasma 2D Anal) scalar
-
H+ Flag (non-zero = H+ present CPI/ICA), scalar
-
He++ Flag (non-zero = He++ present CPI/ICA)), scalar
-
He+ Flag (non-zero = He+ present CPI/ICA), scalar
-
O+ Flag (non-zero = O+ present, CPI/ICA), scalar
-
Ion number density (HPA)), scalar
-
Kinetic temperature of hot plasma ions, scalar
-
Ion bulk flow velocity (HPA), 3 GSE components
-
Electron Number Density (HPA), scalar
-
Kinetic temperature of hot plasma electrons, scalar
-
Geotail Electric Field Detector, Key Parameters - K. Tsuruda (ISAS)
-
Geotail Energetic Particles & Ion Composition (EPIC), Key Parameters - D. Williams (APL/JHU)
-
Ion Diff. Intensity, at 12 energies 67-1361 keV (EPIC/ICS) - spectrogram
-
Ion Diff. Intensity, at 12 energies 67-1361 keV (EPIC/ICS) - stacked time series
-
Uncertainty, Ion Diff. Intensity, at 12 energies
-
H Diff. Intensity, at 2 energies 9 & 23 keV/e (EPIC/STICS)
-
H Diff. Intensity, at 2 energies 9 & 23 keV/e (EPIC/STICS), with error bars
-
Uncertainty, H Differential Intensity, at 2 energies
-
Electron Integral Intensity, >38 keV (EPIC/ICS), scalar
-
Electron Integral Intensity, >38 keV (EPIC/ICS), scalar, with error bars
-
Uncertainty, Electron Integral Intensity
-
Electron Energy, time-varying lower bound (between 34-50 keV) on electron integral flux (EPIC/ICS), scalar
-
He/H Ratio, of (82keV He/67keV H) & (233keV He/67keV H) Diff. Intens. (EPIC/ICS)
-
He/H Ratio, of (82keV He/67keV H) & (233keV He/67keV H) Diff. Intens. (EPIC/ICS), with error bars
-
Uncertainty, He/H Ratio, (2) Diff. Intens. (EPIC/ICS)
-
O/H Ratio, at (247keV O/67keV H) & (1244keV O/67keV H) Diff. Intens. (EPIC/ICS)
-
O/H Ratio, at (247keV O/67keV H) & (1244keV O/67keV H) Diff. Intens. (EPIC/ICS), with error bars
-
Uncertainty, O/H Ratio, (2) Diff. Intens. (EPIC/ICS)
-
He++/H+ Ratio, of (9.4-212keV He++/67keV H+) Diff. Inten. (EPIC/STICS), scalar
-
He++/H+ Ratio, of (9.4-212keV He++/67keV H+) Diff. Inten. (EPIC/STICS), scalar, with error bars
-
Uncertainty, He++/H+ Ratio, of Diff. Inten.
-
O+/H+ Ratio, of (9.4-212keV O+/67keV H+) Diff. Inten. (EPIC/STICS), scalar
-
O+/H+ Ratio, of (9.4-212keV O+/67keV H+) Diff. Inten. (EPIC/STICS), scalar, with error bars
-
Uncertainty, O+/H+ Ratio of Diff. Inten.
-
>38keV Electron anis. param. (a0/a1/a2/phi1/phi2 from Fourier fit to elec. int. flux
-
>38keV Electron anis. param. (a0/a1/a2/phi1/phi2 from Fourier fit to elec. int. flux, with error bars
-
Uncertainty, >38keV Electron anisotropy parameters
-
9-212 keV/e H Anis. param. (a0/a1/a2/phi1/phi2 from Fourier fit to H flux , EPIC/STICS)
-
9-212 keV/e H Anis. param. (a0/a1/a2/phi1/phi2 from Fourier fit to H flux , EPIC/STICS), with error bars
-
Uncertainty, 9-212 keV/e H Anisotropy
-
67 keV H Anis. param. (a0/a1/a2/phi1/phi2 from Fourier fit to H flux , EPIC/ICS)
-
67 keV H Anis. param. (a0/a1/a2/phi1/phi2 from Fourier fit to H flux , EPIC/ICS), with error bars
-
Uncertainty, 67 keV H Anisotropy
-
129 keV H Anis. param. (a0/a1/a2/phi1/phi2 from Fourier fit to H flux , EPIC/ICS)
-
129 keV H Anis. param. (a0/a1/a2/phi1/phi2 from Fourier fit to H flux , EPIC/ICS), with error bars
-
Uncertainty, 129 keV H Anisotropy
-
Editor-A 12 second, Low-Energy Particles, Geotail - T. Mukai (ISAS) Editor-B 12 second, Low-Energy Particles, Geotail - T. Mukai (ISAS) Geotail Low-Energy Particles, Key Parameters - T. Mukai (ISAS)
-
Ion Density (qualitative use only if Energy Scan Code = 2 = RAM-B/SW)
-
Ion Temperature in Satellite coordinates (qualitative use only if Energy Scan Code = 2 = RAM-B/SW)
-
[NO PLOTS] Sensor
-
Energy Scan Code (1 = Sensor Code EA = energy scan mode RAM-A, 2 = Sensor Code SW = energy scan mode RAM-B)
-
Ion Velocity (GSE) (qualitative use only if Energy Scan Code = 2 = RAM-B/SW)
-
Geotail position in GSE cartesian coordinates
-
Ion Velocity (GSM) (qualitative use only if Energy Scan Code = 2 = RAM-B/SW)
-
Geotail position in GSM cartesian coordinates
-
Ion Velocity (SM) (qualitative use only if Energy Scan Code = 2 = RAM-B/SW)
-
Geotail position in SM cartesian coordinates
-
Ion Density (Use only if no Editor-A data; qualitative use only if Energy Scan Code = 2 = RAM-B/SW)
-
Ion Temperature in Satellite coordinates (Use only if no Editor-A data; qualitative use only if Energy Scan Code = 2 = RAM-B/SW)
-
[NO PLOTS] Sensor
-
Energy Scan Code (1 = Sensor Code EA = energy scan mode RAM-A, 2 = Sensor Code SW = energy scan mode RAM-B)
-
Ion Velocity (GSE) (Use only if no Editor-A data; qualitative use only if Energy Scan Code = 2 = RAM-B/SW)
-
Geotail position in GSE cartesian coordinates
-
Ion Velocity (GSM) (Use only if no Editor-A data; qualitative use only if Energy Scan Code = 2 = RAM-B/SW)
-
Geotail position in GSM cartesian coordinates
-
Ion Velocity (SM) (Use only if no Editor-A data; qualitative use only if Energy Scan Code = 2 = RAM-B/SW)
-
Geotail position in SM cartesian coordinates
-
Satellite Position GSE, 3 comp.
-
Solar Wind Density, scalar
-
Solar Wind Velocity GSM, 3 comp.
-
Electron Flux at 32 energies (100ev - 40keV) and 4 look directions (0/sun, 90/dusk, 180/tail, 270/dawn deg)
-
Ion Flux at 32 energies (100ev - 40keV) and 4 look directions (0/sun, 90/dusk, 180/tail, 270/dawn deg)
-
Data Quality Flag (0=good, 5=bad)
-
32 Electron Energy Step Values
-
32 Ion Energy Step Values
-
Geotail Combined, Definitive, Minute IMF, Plasma - J.H. King, N. Papatashvilli (Perot Sys, NASA GSFC)
-
# fine time scale IMF points
-
1AU IP Average B Field Magnitude
-
1AU IP Magnitude of average field vector (nT)
-
1AU IP Bx (nT), GSE
-
1AU IP By (nT), GSE
-
1AU IP Bz (nT), GSE
-
1AU IP By (nT), GSM
-
1AU IP Bz (nT), GSM
-
RMS deviation of average B magnitude (nT)
-
RMS deviation of magnitude of the average vector field (nT)
-
RMS deviation Bx (nT), GSE
-
RMS deviation By (nT), GSE
-
RMS deviation Bz (nT), GSE
-
# fine time scale plasma points
-
1AU IP proton flow speed (km/s)
-
1AU IP Vx (nT), GSE
-
1AU IP Vy (nT), GSE
-
1AU IP Vz (nT), GSE
-
1AU IP Proton number density (per cc)
-
1AU IP Proton Temperature, deg K
-
X s/c (Re), GSE
-
Y s/c (Re), GSE
-
Z s/c (Re), GSE
-
Editor-A 3 second data, Magnetic Field Instrument, Geotail - S. Kokubun (STELAB Nagoya Univ., Japan) Editor-B 3 second data, Magnetic Field Instrument, Geotail - S. Kokubun (STELAB Nagoya Univ., Japan) Geotail Magnetic Field Instrument - S. Kokubun (STELAB Nagoya Univ., Japan)
-
Geotail Plasma Wave Instrument, Key Parameters - H. Matsumoto (Kyoto Univ.)
-
AIS AMD AMK AND ARCT ASI ATHA ATU BARS BETT BFE BJN BMLS BOU BRW BSL CCNV CHBG CIGO CMO CRVR DED DIK DMH DNB DOB DON DRBY EAGL EKAT FCC FHB FPI FRD FRN FSIM FSMI FYKN FYTS GAKO GBAY GDH GHB GILL GJOA GUA HANK HLMS HOMR HON HOP HOTS ICEW IGLO INUV JCK KAKO KAPU KAR KIAN KILP KUUJ KUV LARG LETH LOYS LYR MAG MARI MCGR MPA NAL NAQ NEW NOR NRD PACE PANG PBK PG1 PG2 PGEO PINA PINE POKR PTRS PYKK RANK RBAY REDR RIO RMUS ROE ROTH RVK SASK SCO SHU SIT SJG SKT SNAP SNKQ SOL SOR STF SVS SWNO TDC THL TIK TPAS TRAP TRO TUC UKIA UMQ UPN VLF WHIT YKC YKNF
-
SESAME Advanced Ionospheric Sounder, Key Parameters - J. Dudeney (British Antarctic Survey)
-
Higher latitude chain (Lat 69.6, Long 60.2), Ground-based Vector Magnetic Field at Amderma, Russia. 1 minute time resolution. - Oleg Troshichev (Department of Geophysics, Arctic and Antarctic Research Institute)
-
Higher latitude chain (Lat 65.6, Long 322.4), Ground-based Vector Magnetic Field at Tasiilaq, Greenland, 60 sec, DTU network - C. Stolle & J. Matzka (DTU Space, Denmark)
-
Higher latitude chain (Lat 69.3, Long 16.0), Ground-based Vector Magnetic Field at Andenes, Norway, 1 min, Norwegian auroral zone magnetometer network - T. L. Hansen (TGO, University of Tromso)
-
Higher latitude chain (Lat 68.1, Long 214.4), Ground-based Vector Magnetic Field at Arctic Village, AK, 1.0 sec Level-2, GIMA network - V. Angelopoulos & H. Nielson (UCB and U Alaska, NASA NAS5-02099)
-
CANOPUS All Sky Imager, Key Parameters - J. Samson (U. Alberta)
-
Higher latitude chain (Lat 54.7, Long 246.7), Ground-based Vector Magnetic Field at Athabasca, Canada, 0.5 sec Level-2 - V. Angelopoulos & I. Mann (UCB & U Calgary respectively, NASA NAS5-02099)
-
Higher latitude chain (Lat 67.9, Long 306.4), Ground-based Vector Magnetic Field at Attu, Greenland, 20 >sec, DMI network - Hans Gleisner (DMI, Denmark)
-
CANOPUS Bistatic Auroral Radar System, Key Parameters - John Samson (University of Alberta)
-
Higher latitude chain (Lat 66.9, Long 208.5), Ground-based Vector Magnetic Field at Bettles, AK, 1.0 sec Level-2, GIMA network - V. Angelopoulos & H. Nielson (UCB & UAlaska, NASA NAS5-02099)
-
Higher latitude chain (Lat 55.6, Long 11.7), Ground-based Vector Magnetic Field at Brofelde, Denmark, 1 min, DTU network - C. Stolle & J. Matzka (DTU Space, Denmark)
-
Higher latitude chain (Lat 74.5, Long 19.0), Ground-based Vector Magnetic Field at Bjornoya, Norway, 1 min, Norwegian auroral zone magnetometer network - T. L. Hansen (TGO, University of Tromso)
-
Lower latitude chain (Lat 46.2, Long 275.7), Ground-based Vector Magnetic Field at Bay Mills, MI, 0.5 sec, THEMIS GEONS network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
-
Lower latitude chain (Lat 40.1, Long 254.8), Ground-based Vector Magnetic Field at Boulder, Colorado, 1 sec, USGS Network - Carol A. Finn (United States Geological Survey, Golden, CO )
-
Lower latitude chain (Lat 71.3, Long 156.6), Ground-based Vector Magnetic Field at Barrow, Alaska, 1.0 sec, USGS network - Duff C. Stewart (USGS Denver)
-
Lower latitude chain (Lat 30.4, Long 89.6), Ground-based Vector Magnetic Field at NASA , Stennis Space Center, 1 sec, USGS Network - Carol A. Finn (United States Geological Survey, Golden, CO)
-
Lower latitude chain (Lat 39.2, Long 240.2), Ground-based Vector Magnetic Field at Carson City, NV, 0.5 sec, THEMIS GEONS network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
-
Higher latitude chain (Lat 49.8, Long 285.6), Ground-based Vector Magnetic Field at Chibougamau, Canada, 0.5 sec, THEMIS GBO network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
-
Higher latitude chain (Lat 64.9, Long 212.1), Ground-based Vector Magnetic Field at College, AK, 0.5 sec, THEMIS GBO network - V. Angelopoulos & H. Nielson (UCB & UAlaska, NASA NAS5-02099)
-
Higher latitude chain (Lat 64.9, Long 147.9), Ground-based Vector Magnetic Field at Fairbanks, Alaska, College 1.0 sec time Resolution. - Carol A. Finn (United States Geological Survey, 1711 Illinois St, Golden, CO 80401-1865, USA)
-
Higher latitude chain (Lat 70.5, Long 291.4), Ground-based Vector Magnetic Field at Clyde River, Nunavut, Canada, 0.5 sec, Magnetometer Array for Cusp and Cleft Studies (MACCS) - Erik S. Steinmetz (Augsburg College)
-
Higher latitude chain (Lat 70.4, Long 148.8), Ground-based Vector Magnetic Field at Dead Horse, Alaska, 1.0 sec time Resolution. - Carol A. Finn (United States Geological Survey, 1711 Illinois St, Golden, CO 80401-1865, USA)
-
Higher latitude chain (Lat 73.5, Long 80.7), Ground-based Vector Magnetic Field at Dikson, Russia. 1 minute time resolution. - Oleg Troshichev (Department of Geophysics, Arctic and Antarctic Research Institute)
-
Higher latitude chain (Lat 76.8, Long 341.4), Ground-based Vector Magnetic Field at Danmarkshavn, Greenland, 20 sec, DMI network - Hans Gleisner (DMI, Denmark)
-
Higher latitude chain (Lat 74.3, Long 339.8), Ground-based Vector Magnetic Field at Daneborg, Greenland, 20 sec, DMI network - Hans Gleisner (DMI, Denmark)
-
Higher latitude chain (Lat 62.1, Long 9.1), Ground-based Vector Magnetic Field at Dombas, Norway, 1 min, Norwegian auroral zone magnetometer network - T. L. Hansen (TGO, University of Tromso)
-
Higher latitude chain (Lat 66.1, Long 12.5), Ground-based Vector Magnetic Field at Donna, Norway, 1 min, Norwegian auroral zone magnetometer network - T. L. Hansen (TGO, University of Tromso)
-
Lower latitude chain (Lat 45.0, Long 287.9), Ground-based Vector Magnetic Field at Derby, VT, 0.5 sec, THEMIS GEONS network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
-
Higher latitude chain (Lat 64.8, Long 218.8), Ground-based Vector Magnetic Field at Eagle, AK, 0.5 sec, THEMIS GBO network - V. Angelopoulos & H. Nielson (UCB & UAlaska, NASA NAS5-02099)
-
Higher latitude chain (Lat 64.7, Long 249.3), Ground-based Vector Magnetic Field at Ekati, Canada, 0.5 sec, THEMIS GBO network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
-
Higher latitude chain (Lat 58.8, Long 265.9), Ground-based Vector Magnetic Field at Fort Churchill, Canada, 1.0 sec time Resolution. - David Calp (Geologilogicalal Survey of Canada Geomagnetic Laboratory 7 Observatory Crescent Ottawa, Ontario, Canada K1A 0Y3)
-
Higher latitude chain (Lat 62.0, Long 310.3), Ground-based Vector Magnetic Field at Paamiut(Frederikshap), Greenland, 1 min, DTU network - C. Stolle & J. Matzka (DTU Space, Denmark)
-
SESAME Fabry-Perot Interferometer, Key Parameters - J.R. Dudeney (British Antarctic Survey)
-
Lower latitude chain (Lat 38.2, Long 77.4), Ground-based Vector Magnetic Field at Corbin, VA, 1 sec, USGS Network - Carol A. Finn (United States Geological Survey, Golden, CO)
-
Lower latitude chain (Lat 37.1, Long 119.7), Ground-based Vector Magnetic Field at Fresno, Californaia, 1 sec, USGS Network - Carol A. Finn (United States Geological Survey, Golden, CO)
-
Higher latitude chain (Lat 61.8, Long 238.8), Ground-based Vector Magnetic Field at Fort Simpson, Canada, 0.5 sec Level-2 - V. Angelopoulos & C. I. Mann (UCB & U Alberta respectively, NASA NAS5-02099)
-
Higher latitude chain (Lat 60.0, Long 248.2), Ground-based Vector Magnetic Field at Fort Smith, Canada, 0.5 sec Level-2 - V. Angelopoulos & I. Mann (UCB & U Alberta respectively, NASA NAS5-02099)
-
Higher latitude chain (Lat 66.6, Long 214.8), Ground-based Vector Magnetic Field at Fort Yukon, AK, 0.5 sec, THEMIS GBO network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
-
Lower latitude chain (Lat 46.1, Long 259.4), Ground-based Vector Magnetic Field at Fort Yates, ND, 0.5 sec, THEMIS GEONS network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
-
Higher latitude chain (Lat 62.4, Long 214.8), Ground-based Vector Magnetic Field at Gakona, AK, 1.0 sec, THEMIS GBO network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
-
DARN Goose Bay, Key Parameters - R. Greenwald (JHU/APL) Higher latitude chain (Lat 53.3, Long 299.5), Ground-based Vector Magnetic Field at Goose Bay, Canada, 0.5 sec, THEMIS GBO network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
-
Higher latitude chain (Lat 69.3, Long 306.5), Ground-based Vector Magnetic Field at Qeqertarsuaq, Greenland, 1 min, DTU network - C. Stolle & J. Matzka (DTU Space, Denmark)
-
Higher latitude chain (Lat 64.2, Long 308.3), Ground-based Vector Magnetic Field at Nuuk(Godthap), Greenland 1 min, DTU network - C. Stolle & J. Matzka (DTU Space, Denmark)
-
Higher latitude chain (Lat 56.4, Long 265.3), Ground-based Vector Magnetic Field at Gillam, Canada, 0.5 sec Level-2 - V. Angelopoulos & I. Mann (UCB & U Alberta respectively, NASA NAS5-02099)
-
Higher latitude chain (Lat 68.6, Long 264.1), Ground-based Vector Magnetic Field at Gjoa Haven, Nunavut, Canada, 0.5 sec, Magnetometer Array for Cusp and Cleft Studies (MACCS) - Erik S. Steinmetz (Augsburg College)
-
Lower latitude chain (Lat 13.6, Long 215.1), Ground-based Vector Magnetic Field at Dededo, Guam, 1 sec, USGS Network - Carol A. Finn (United States Geological Survey, Golden, CO)
-
DARN Hankasalmi, Key Parameters - R. Greenwald (JHU/APL)
-
Higher latitude chain (Lat 61.2, Long 210.1), Ground-based Vector Magnetic Field at Anchorage, AK, 0.5 sec, THEMIS GBO network - V. Angelopoulos & H. Nielson (UCB & UAlaska, NASA NAS5-02099)
-
Higher latitude chain (Lat 59.7, Long 209.5), Ground-based Vector Magnetic Field at Homer, AK, 0.5 sec, THEMIS GBO network - V. Angelopoulos & H. Nielson (UCB & UAlaska, NASA NAS5-02099)
-
Lower latitude chain (Lat 21.3, Long 2=158.0), Ground-based Vector Magnetic Field at Ewa Beach, HI, 1 sec, USGS Network - Carol A. Finn (United States Geological Survey, Golden, CO)
-
Higher latitude chain (Lat 76.5, Long 25.0), Ground-based Vector Magnetic Field at Hopen, Norway 1 min, Norwegian auroral zone magnetometer network - T. L. Hansen (TGO, University of Tromso)
-
Lower latitude chain (Lat 47.6, Long 245.3), Ground-based Vector Magnetic Field at Hot Springs, MT, 0.5 sec, THEMIS GEONS network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
-
DARN Iceland West (Stokkseyri),Key Parameters - R. Greenwald (JHU/APL)
-
Higher latitude chain (Lat 69.3, Long 278.2), Ground-based Vector Magnetic Field at Igloolik, Nunavut, Canada, 0.5 sec, Magnetometer Array for Cusp and Cleft Studies (MACCS) - Erik S. Steinmetz (Augsburg College)
-
Higher latitude chain (Lat 68.4, Long 226.2), Ground-based Vector Magnetic Field at Inuvik, Canada, 0.5 sec, THEMIS GBO network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
-
Higher latitude chain (Lat 66.4, Long 17.0), Ground-based Vector Magnetic Field at Jackvik, Sweden, 1 min, Norwegian auroral zone magnetometer network - T. L. Hansen (TGO, University of Tromso)
-
Higher latitude chain (Lat 70.1, Long 217.4), Ground-based Vector Magnetic Field at Kaktovik, AK, 0.5 sec, THEMIS GBO network - V. Angelopoulos & H. Nielson (UCB & UAlaska, NASA NAS5-02099)
-
DARN Kapuskasing,Key Parameters - R. Greenwald (JHU/APL) Higher latitude chain (lat 49.4, long 277.7), ground-based vector Magnetic field at Kapuskasing, Canada, 0.5 sec, THEMIS GBO network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
-
Higher latitude chain (Lat 59.2, Long 5.2), Ground-based Vector Magnetic Field at Karmoy, Norway 1 min, Norwegian auroral zone magnetometer network - T. L. Hansen (TGO, University of Tromso)
-
Higher latitude chain (Lat 67.0, Long 199.6), Ground-based Vector Magnetic Field at Kiana, AK, 0.5 sec, THEMIS GBO network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
-
FMI Kilpisjarvi: All-Sky Camera Key Parameters - K. Kauristie (Finnish Meteorological Institute)
-
Higher latitude chain (Lat 58.3, Long 291.8), Ground-based Vector Magnetic Field at Kuujjuaq, Canada, 0.5 sec, THEMIS GBO network - V. Angelopoulos & C.T. Russell (UCB & UCLA Respectively, NASA NAS5-02099)
-
Higher latitude chain (Lat 74.6, Long 302.8), Ground-based Vector Magnetic Field at Kullorsuaq, Greenland, 1 min, DTU network - C. Stolle & J. Matzka (DTU Space, Denmark)
-
Lower latitude chain (Lat 55.2, Long 254.7), Ground-based Vector Magnetic Field at La Ronge, Saskatchewan, Canada, 0.5 sec - V. Angelopoulos, C. T. Russell, and M. Connors (UCB, UCLA, and U Athabasca respectively, NASA NAS5-02099)
-
Lower latitude chain (Lat 49.6, Long 247.1), Ground-based Vector Magnetic Field at Lethbridge, Alberta, Canada, 0.5 sec - V. Angelopoulos, C. T. Russell, and M. Connors (UCB, UCLA, and U Athabasca respectively, NASA NAS5-02099)
-
Lower latitude chain (Lat 40.2, Long 281.6), Ground-based Vector Magnetic Field at Loysburg PA, 0.5 sec, THEMIS GEONS network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
-
Higher latitude chain (Lat 78.2, Long 15.8), Ground-based Vector Magnetic Field at Longyearbyen, Norway, 1 min, Norwegian auroral zone magnetometer network - T. L. Hansen (TGO, University of Tromso)
-
SESAME Fluxgate Magnetometer Key Parameters - J. Dudeney (British Antarctic Survey)
-
CANOPUS MARI Magnetometer Key Parameters - J. Samson (U. Alberta) CANOPUS MARI Riometer Key Parameters - J. Samson (U. Alberta)
-
Higher latitude chain (Lat 63.0, Long 204.4), Ground-based Vector Magnetic Field at McGrath, AK, 0.5 sec, THEMIS GBO network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
-
CANOPUS Meridian Photometer Array, Key Parameters - J. Samson (U. Alberta)
-
Higher latitude chain (Lat 79.0, Long 11.9), Ground-based Vector Magnetic Field at Ny Alesund, Norway, 1 min, Norwegian auroral zone magnetometer network - T. L. Hansen (TGO, University of Tromso)
-
Higher latitude chain (Lat 56.4, Long 298.3 ), Ground-based Vector Magnetic Field at Nain, Canada, 0.5 sec, THEMIS GBO network - Erik S. Steinmetz (Augsburg College, steinmee@augsburg.edu) Higher latitude chain (Lat 61.2, Long 314.6), Ground-based Vector Magnetic Field at Narsarsuaq, Greenland, 1 min, DTU network - C. Stolle & J. Matzka (DTU Space, Denmark) Higher latitude chain (Lat 61.2, Long 314.6), Ground-based Vector Magnetic Field at Narsarsuaq, Greenland, 20 sec, THEMIS GBO network - Hans Gleisner (DMI, Denmark) Higher latitude chain (Lat 64.2, Long 283.4), Ground-based Vector Magnetic Field at Dorset, Canada, 0.5 sec, THEMIS GBO network - Erik S. Steinmetz (Augsburg College, steinmee@augsburg.edu)
-
Lower latitude chain (Lat 48.3, Long 117.1), Ground-based Vector Magnetic Field at Colville, National Forest, WA, 1 sec, USGS Network - Carol A. Finn (United States Geological Survey, Golden, CO)
-
Higher latitude chain (Lat 71.1, Long 25.8), Ground-based Vector Magnetic Field at Nordkapp, Norway, 1 min, Norwegian auroral zone magnetometer network - T. L. Hansen (TGO, University of Tromso)
-
Higher latitude chain (Lat 81.6, Long 343.3), Ground-based Vector Magnetic Field at Nord, Greenland, 20 sec, DMI network - Hans Gleisner (DMI, Denmark)
-
DARN PACE, Key Parameters - R. Greenwald (JHU/APL)
-
Higher latitude chain (Lat 66.1, Long 294.2), Ground-based Vector Magnetic Field at Pangnirtung, Nunavut, Canada, 0.5 sec, Magnetometer Array for Cusp and Cleft Studies (MACCS) - Erik S. Steinmetz (Augsburg College)
-
Higher latitude chain (Lat 70.1, Long 170.9), Ground-based Vector Magnetic Field at Pevek, Russia. 1 minute time resolution. - Oleg Troshichev (Department of Geophysics, Arctic and Antarctic Research Institute)
-
Higher latitude chain (Lat -85.5, Long 77.2), Ground-based Vector Magnetic Field in Antarctica - C. R. Clauer (Virginia Tech.)
-
Higher latitude chain (Lat -84.4, Long 58.0), Ground-based Vector Magnetic Field in Antarctica - C. R. Clauer (Virginia Tech.)
-
Higher latitude chain (Lat 53.8, Long 237.2), Ground-based Vector Magnetic Field at Prince George Canada, 0.5 sec, THEMIS GBO network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
-
Higher latitude chain (Lat 50.2, Long 263.9), Ground-based Vector Magnetic Field at Pinawa, Canada, 0.5 sec Level-2 - V. Angelopoulos & I. Mann (UCB & U Alberta respectively, NASA NAS5-02099)
-
Lower latitude chain (Lat 43.1, Long 257.4), Ground-based Vector Magnetic Field at Pine Ridge, SD, 0.5 sec, THEMIS GEONS network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
-
Higher latitude chain (Lat 65.1, Long 212.6), Ground-based Vector Magnetic Field at Poker Flat, AK, 0.5 sec, THEMIS GBO network - V. Angelopoulos & H. Nielson (UCB & UAlaska, NASA NAS5-02099)
-
Higher latitude chain (Lat 56.8, Long 226.8), Ground-based Vector Magnetic Field at Petersburg, AK, 0.5 sec, THEMIS GEONS network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
-
DARN Pykkvibaer, Key Parameters - R. Greenwald (JHU/APL)
-
Higher latitude chain (Lat 62.8, Long 267.9), Ground-based Vector Magnetic Field at Rankin Inlet, Canada, 0.5 sec Level-2 - V. Angelopoulos & I. Mann (UCB & U Alberta respectively, NASA NAS5-02099)
-
Higher latitude chain (Lat 66.5, Long 273.8), Ground-based Vector Magnetic Field at Repulse Bay, Canada, 0.5 sec, Magnetometer Array for Cusp and Cleft Studies (MACCS) - Erik S. Steinmetz (Augsburg College)
-
Lower latitude chain (Lat 52.1, Long 246.2), Ground-based Vector Magnetic Field at Red Deer, Alberta, Canada, 0.5 sec Level-2 - V. Angelopoulos, C. T. Russell, and M. Connors (UCB, UCLA, and U Athabasca respectively, NASA NAS5-02099)
-
SESAME 30MHz Riometer Array, Key Parameters - J. Dudeney (British Antarctic Survey)
-
Lower latitude chain (Lat 43.6, Long 274.8), Ground-based Vector Magnetic Field at Remus, MI, 0.5 sec, THEMIS GEONS network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
-
Higher latitude chain (Lat 55.2, Long 8.6), Ground-based Vector Magnetic Field at Roemoe, Denmark, 1 min, DTU network - C. Stolle & J. Matzka (DTU Space, Denmark)
-
Lower latitude chain (Lat 50.9, Long 245.7), Ground-based Vector Magnetic Field at Priddis, Alberta, Canada, 0.5 sec Level-2 - V. Angelopoulos, C. T. Russell, and M. Connors (UCB, UCLA, and U Athabasca respectively, NASA NAS5-02099)
-
Higher latitude chain (Lat 64.9, Long 11.0), Ground-based Vector Magnetic Field at Rorvik, Norway, 1 min, Norwegian auroral zone magnetometer network - T. L. Hansen (TGO, University of Tromso)
-
DARN Saskatoon, Key Parameters - R. Greenwald (JHU/APL)
-
Higher latitude chain (Lat 70.4, Long 338.0), Ground-based Vector Magnetic Field at Ittoqqortoormiit, Greenland, 60 sec, DTU network - C. Stolle & J. Matzka (DTU Space, Denmark)
-
Higher latitude chain (Lat 55.4, Long 160.46), Ground-based Vector Magnetic Field at Sand Point, Alaska, 1.0 sec time Resolution. - Carol A. Finn (United States Geological Survey, 1711 Illinois St, Golden, CO 80401-1865, USA)
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Higher latitude chain (Lat 57.1, Long 135.3), Ground-based Vector Magnetic Field at Sitka, Alaska, 1.0 sec time Resolution. - Carol A. Finn (United States Geological Survey, 1711 Illinois St, Golden, CO 80401-1865, USA)
-
Lower latitude chain (Lat 18.1, Long 66.2), Ground-based Vector Magnetic Field at Cayey, Puerto Rico, 1 sec, USGS Network - Carol A. Finn (United States Geological Survey, Golden, CO)
-
Higher latitude chain (Lat 65.4, Long 307.1), Ground-based Vector Magnetic Field at Maniitsoq, Greenland, 1, DTU network - C. Stolle & J. Matzka (DTU Space, Denmark)
-
Higher latitude chain (Lat 63.6, Long 249.1), Ground-based Vector Magnetic Field at Snap Lake, Canada, 0.5 sec, THEMIS GBO network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
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Higher latitude chain (Lat 56.5, Long 280.8), Ground-based Vector Magnetic Field at Sanikiluaq, Canada, 0.5 sec Level-2 - V. Angelopoulos & I. Mann (UCB & U Alberta respectively, NASA NAS5-02099)
-
Higher latitude chain (Lat 61.1, Long 4.8), Ground-based Vector Magnetic Field at Solund, Norway 1 min, Norwegian auroral zone magnetometer network - T. L. Hansen (TGO, University of Tromso)
-
Higher latitude chain (Lat 70.5, Long 22.2), Ground-based Vector Magnetic Field at Soroya Norway, 1 min, Norwegian auroral zone magnetometer network - T. L. Hansen (TGO, University of Tromso)
-
Higher latitude chain (Lat 67.0, Long 309.3), Ground-based Vector Magnetic Field at Kangerlussuaq, Greenland, 1 min, DTU network - C. Stolle & J. Matzka (DTU Space, Denmark)
-
Higher latitude chain (Lat 76.0, Long 294.9), Ground-based Vector Magnetic Field at Savissivik, Greenland, 20 sec, DMI network - Hans Gleisner (DMI, Denmark)
-
Lower latitude chain (Lat 44.8, Long 271.4), Ground-based Vector Magnetic Field at Shawano, WI, 0.5 sec, THEMIS GEONS network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
-
Lower latitude chain (Lat -37.1, Long 347.7), Ground-based Vector Magnetic Field at Tristan Da Cunha, 1 min - Norwegian auroral zone magnetometer network - T. L. Hansen (TGO, University of Tromso)
-
Higher latitude chain (Lat 77.5, Long 290.8), Ground-based Vector Magnetic Field at Qaanaaq, Greenland, 1 min, DTU network - C. Stolle & J. Matzka (DTU Space, Denmark)
-
Higher latitude chain (Lat 71.6, Long 128.9), Ground-based Vector Magnetic Field at Tiksi, Russia. 1 minute time resolution. - Oleg Troshichev (Department of Geophysics, Arctic and Antarctic Research Institute)
-
Higher latitude chain (Lat 54.0, Long 259.1), Ground-based Vector Magnetic Field at Flin Flon/The Pas, Canada, 0.5 sec, THEMIS GBO network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
-
Higher latitude chain (Lat 62.3, Long 209.8), Ground-based Vector Magnetic Field at Trapper Creek, AK, 0.5 sec, THEMIS GBO network - V. Angelopoulos & H. Nielson (UCB & UAlaska, NASA NAS5-02099)
-
Higher latitude chain (Lat 69.7, Long 18.9), Ground-based Vector Magnetic Field at Tromso, Norway 1 min, DTU network - C. Stolle & J. Matzka (DTU Space, Denmark)
-
Lower latitude chain (Lat 32.2, Long 110.7), Ground-based Vector Magnetic Field at Tucson, Arizona, 1 sec, USGS Network - Carol A. Finn (United States Geological Survey, Golden, CO)
-
Lower latitude chain (Lat 45.1, Long 241.1), Ground-based Vector Magnetic Field at Ukiah, OR, 0.5 sec, THEMIS GEONS network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
-
Higher latitude chain (Lat 70.7, Long 307.9), Ground-based Vector Magnetic Field at Uummannaq, Greenland, 1 min, DTU network - C. Stolle & J. Matzka (DTU Space, Denmark)
-
Higher latitude chain (Lat 72.8, Long 303.8), Ground-based Vector Magnetic Field at Upernavik, Greenland, 1 min., DTU network - C. Stolle & J. Matzka (DTU Space, Denmark)
-
SESAME VLF/ELF Logger Experiment (VELOX)Key Parameters - J. Dudeney (British Antarctic Survey)
-
Higher latitude chain (Lat 61.0, Long 224.8), Ground-based Vector Magnetic Field at White Horse, Canada, 0.5 sec, THEMIS GBO network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
-
Higher latitude chain (Lat 62.5, Long 245.5), Ground-based Vector Magnetic Field at Yellowknife, Canada, 1.0 sec time Resolution. - David Calp (Geological Survey of Canada)
-
Higher latitude chain (Lat 62.5, Long 245.7), Ground-based Vector Magnetic Field at Yellowknife, Canada, 0.5 sec, THEMIS GBO network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
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MAG VLF
-
Hawkeye Magnetic Field Instrument - J. Van Allen (University of Iowa)
-
Hk Electric and Magnetic Field Radio Frequency Spectrum Analyzer High Time Resolution - D. Gurnett (University of Iowa)
-
MAG_PLASMA NESSMAG
-
Helios-1 merged hourly magnetic field, plasma and ephermis data - N. Ness, F. Neubauer, F. Mariani (magnetic field), H. Rosenbauer, R. Schwenn (plasma) and J. Freeman (all affiliated with ESA or NASA) Helios-2 merged hourly magnetic field, plasma and ephermis data - N. Ness, F. Neubauer, F. Mariani (magnetic field), H. Rosenbauer, R. Schwenn (plasma) and J. Freeman (all affiliated with ESA or NASA)
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HEL1_6SEC_NESSMAG - Mariani/Ness (University of Rome, CNR/Istituto Fisica Interplanetario, and NASA/GSFC) HEL2_6SEC_NESSMAG - Mariani/Ness (University of Rome, CNR/Istituto Fisica Interplanetario, and NASA/GSFC)
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ADS AST COM DEF EUV FSW HENA LENA MENA PRE PWR RPI SIE SIP TML WIC
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Image Attitude Determination System Housekeeping - Dr. Jim Burch (Southwest Research Institute)
-
Attitude Determination System Enabled
-
Hardware Data Processing Enabled
-
Magnetic Control System Enabled
-
Sun Sensor Processing Enabled
-
Eclipsed=1, Not-Eclipsed=0
-
Consecutive Eclipse Count
-
S/C Body Rates Valid (Valid=1, Not-Valid=0)
-
Sun Sensor Processing Valid (Valid=1, Not-Valid=0)
-
Star Tracker Processing (Valid=1, Not-Valid=0)
-
Torque Rod Enabled (Enabled=1, Not-Enabled=0)
-
StarTracker Data Valid (Valid=1, Not-Valid=0)
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AST body rates (X) in GCI frame
-
AST body rates (Y) in GCI frame
-
AST body rates (Z) in GCI frame
-
Commanded Momentum Vector (X) in s/c frame
-
Commanded Momentum Vector (Y) in s/c frame
-
Commanded Momentum Vector (Z) in s/c frame
-
Solar Array Current (amps)
-
Filtered Spin Phase (deg)
-
Sun Sensor Sine Voltage (volts)
-
Sun Sensor Cosine Voltage (volts)
-
Sun Sensor Bias Voltage (volts)
-
TAM X Axis Output (gauss)
-
TAM Y Axis Output (gauss)
-
TAM Z Axis Output (gauss)
-
Number of missed CEPs in Eclipse
-
Angle between spinaxis & magfield vector
-
Filtered Spin Rate (rpm)
-
Ssp-derived Spin Rate (rpm)
-
Magnetic Field Magnitude (gauss)
-
Current Momentum magnitude, N-M-S
-
Switching commutation angle, (deg)
-
MCS Mode (0=Off,1=Acq,2=Science,3=Ground)
-
Number of consecutive periods with invalid sensor calcs
-
Filtered s/c body rates x
-
Filtered s/c body rates y
-
Filtered s/c body rates z
-
Filtered spinaxis attitude (GCI uvector)
-
Filtered spinaxis attitude (GCI uvector)
-
Filtered spinaxis attitude (GCI uvector)
-
Mission Elapsed Time of last sun pulse
-
s/c quaternion (1)
-
s/c quaternion (2)
-
s/c quaternion (3)
-
s/c quaternion (4)
-
Image Autonomous Star Tracker Housekeeping - Dr. Jim Burch (Southwest Research Institute)
-
Image Communication Systems Housekeeping - Dr. Jim Burch (Southwest Research Institute)
-
Image Definitive Data Orbit - Dr. Jim Burch (Southwest Research Institute)
-
Ion Images, Key Parameters, IMAGE Extreme UltraViolet (EUV) experiment - Bill Sandel (U/Arizona)
-
EUV ion (He+) images of earth and surrounding plasmasphere (no grid, small format, linear scale)
-
---> EUV ion images, as above (large format)
-
---> EUV ion images, as above (movie)
-
---> EUV ion images, as above (log10 scale)
-
---> EUV ion images, as above (large format, log10 scale)
-
---> EUV ion images, as above (movie, log10 scale)
-
---> EUV ion images, as above (mapped, large format)
-
---> EUV ion images, as above (mapped, large format, log10 scale)
-
---> EUV ion images, as above (mapped, movie)
-
---> EUV ion images, as above (mapped, movie, log10 scale)
-
IMAGE Position in GCI coordinates, 3 components
-
IMAGE Position in GEO (geographic) coordinates, 3 components
-
IMAGE Position in GSM coordinates, 3 components
-
Image Flight Software Housekeeping - Dr. Jim Burch (Southwest Research Institute)
-
High Energy Neutral Atom (HENA) H Images, Key Parameters, IMAGE - Dr. Don Mitchell (APL)
-
ENA H Images @ 50-60 keV (no grid, small format, linear scale) - Image0
-
ENA H Images @ 50-60 keV, as above (large format)
-
ENA H Images @ 50-60 keV, as above (movie)
-
ENA H Images @ 50-60 keV, as above (mapped, large format)
-
ENA H Images @ 50-60 keV, as above (mapped, movie)
-
ENA H Images @ 39-50 keV (no grid, small format, linear scale) - Image1
-
ENA H Images @ 39-50 keV, as above (large format)
-
ENA H Images @ 39-50 keV, as above (movie)
-
ENA H Images @ 39-50 keV, as above (mapped, large format)
-
ENA H Images @ 39-50 keV, as above (mapped, movie)
-
ENA H Images @ 27-39 kev (no grid, small format, linear scale) - Image2
-
ENA H Images @ 27-39 keV, as above (large format)
-
ENA H Images @ 27-39 keV, as above (movie)
-
ENA H Images @ 27-39 keV, as above (mapped, large format)
-
ENA H Images @ 27-39 keV, as above (mapped, movie)
-
ENA H Images @ 16-27 keV (no grid, small format, linear scale) - Image3
-
ENA H Images @ 16-27 keV, as above (large format)
-
ENA H Images @ 16-27 keV, as above (movie)
-
ENA H Images @ 16-27 keV, as above (mapped, large format)
-
ENA H Images @ 16-27 keV, as above (mapped, movie)
-
ENA H Images @ 10-16 keV (no grid, small format, linear scale) - Image4
-
ENA H Images @ 10-16 keV, as above (large format)
-
ENA H Images @ 10-16 keV, as above (movie)
-
ENA H Images @ 10-16 keV, as above (mapped, large format)
-
ENA H Images @ 10-16 keV, as above (mapped, movie)
-
ENA H Images @ <10 keV (no grid, small format, linear scale) - Image5
-
ENA H Images @ <10 keV, as above (large format)
-
ENA H Images @ <10 keV, as above (movie)
-
ENA H Images @ <10 keV, as above (mapped, large format)
-
ENA H Images @ <10 keV, as above (mapped, movie)
-
IMAGE position (GCI)
-
IMAGE position (GSM)
-
IMAGE position (GSE)
-
Spin Axis (GCI) at time image was taken.
-
IMAGE Low Energy Neutral Atom (LENA) Imager Key Parameters - Dr. Tom Moore (GSFC)
-
ENA H Images @ 20 eV (no grid, small format, linear scale) - Image0
-
ENA H Images @ 20 eV, as above (large format)
-
ENA H Images @ 20 eV, as above (movie)
-
ENA H Images @ 20 eV, as above (mapped, large format)
-
ENA H Images @ 20 eV, as above (mapped, movie)
-
ENA H Images @ 70 eV (no grid, small format, linear scale) - Image1
-
ENA H Images @ 70 eV, as above (large format)
-
ENA H Images @ 70 eV, as above (movie)
-
ENA H Images @ 70 eV, as above (mapped, large format)
-
ENA H Images @ 70 eV, as above (mapped, movie)
-
ENA H Images @ 200 eV (no grid, small format, linear scale) - Image2
-
ENA H Images @ 200 eV, as above (large format)
-
ENA H Images @ 200 eV, as above (movie)
-
ENA H Images @ 200 eV, as above (mapped, large format)
-
ENA H Images @ 200 eV, as above (mapped, movie)
-
IMAGE position (GCI)
-
IMAGE position (GSM)
-
IMAGE position (GSE)
-
IMAGE Spin Axis (GCI) at time image was taken.
-
Medium Energy Neutral Atom (MENA) H Images, Key Parameters, IMAGE - Dr. Craig Pollock (SwRI)
-
ENA H Images @ 1.0-2.2 keV/n (no grid, small format, linear scale) - Image0
-
ENA H Images @ 1.0-2.2 keV/n, as above (large format)
-
ENA H Images @ 1.0-2.2 keV/n, as above (movie)
-
ENA H Images @ 1.0-2.2 keV/n, as above (mapped, large format)
-
ENA H Images @ 1.0-2.2 keV/n, as above (mapped, movie)
-
ENA H Images @ 2.2-5.3 keV/n (no grid, small format, linear scale) - Image1
-
ENA H Images @ 2.2-5.3 keV/n, as above (large format)
-
ENA H Images @ 2.2-5.3 keV/n, as above (movie)
-
ENA H Images @ 2.2-5.3 keV/n, as above (mapped, large format)
-
ENA H Images @ 2.2-5.3 keV/n, as above (mapped, movie)
-
ENA H Images @ 5.3-12 keV/n (no grid, small format, linear scale) - Image2
-
ENA H Images @ 5.3-12 keV/n, as above (large format)
-
ENA H Images @ 5.3-12 keV/n, as above (movie)
-
ENA H Images @ 5.3-12 keV/n, as above (mapped, large format)
-
ENA H Images @ 5.3-12 keV/n, as above (mapped, movie)
-
ENA H Images @ 12-27 keV/n (no grid, small format, linear scale) - Image3
-
ENA H Images @ 12-27 keV/n, as above (large format)
-
ENA H Images @ 12-27 keV/n, as above (movie)
-
ENA H Images @ 12-27 keV/n, as above (mapped, large format)
-
ENA H Images @ 12-27 keV/n, as above (mapped, movie)
-
ENA H Images @ 27-70 keV/n (no grid, small format, linear scale) - Image4
-
ENA H Images @ 27-70 keV/n, as above (large format)
-
ENA H Images @ 27-70 keV/n, as above (movie)
-
ENA H Images @ 27-70 keV/n, as above (mapped, large format)
-
ENA H Images @ 27-70 keV/n, as above (mapped, movie)
-
IMAGE position (GCI)
-
IMAGE position (GSM)
-
IMAGE position (GSE)
-
IMAGE Spin Axis (GCI) at time image was taken.
-
IMAGE Predicted Orbit - Dr. Jim Burch (Southwest Research Institute)
-
Image Power Systems Housekeeping - Dr. Jim Burch (Southwest Research Institute)
-
Battery State of Charge
-
Battery Temperature (c)
-
Battery Voltage (v)
-
Bus Voltage (v)
-
Battery Load Current (amps)
-
Battery Current (amps)
-
Solar Array Current (amps)
-
Chassis Current (amps)
-
Torquer Primary Coil Status (0=off,1=on)
-
Torquer Primary Coil Status (0=off,1=on)
-
Solar Array Modulator 1 Status (0=off,1=on)
-
Solar Array Modulator 2 Status (0=off,1=on)
-
Solar Array Modulator 3 Status (0=off,1=on)
-
Solar Array Modulator 4 Status (0=off,1=on)
-
Solar Array Modulator 1 Override (0=normal,1=override)
-
Solar Array Modulator 2 Override (0=normal,1=override)
-
Solar Array Modulator 3 Override (0=normal,1=override)
-
Solar Array Modulator 4 Override (0=normal,1=override)
-
MTR Coil State (0=disabled,1=enabled)
-
Torquer Primary Current (amps)
-
Torquer Primary Start Voltage (volts)
-
Torquer Primary End Voltage (volts)
-
Torquer Redundant Current (amps)
-
Torquer Redundant Start Voltage (volts)
-
Torquer Redundant End Voltage (volts)
-
RPI Dynamic Spectrogram, Electron Plasma, IMAGE Radio Plasma Imager (RPI) - B.W. Reinisch (UMLCAR) RPI Dynamic Spectrogram, Key Parameters, IMAGE Radio Plasma Imager (RPI) - B.W. Reinisch (UMLCAR) RPI Plasmagram/Echomap, Key Parameters, IMAGE Radio Plasma Imager (RPI) - B.W. Reinisch (UMLCAR)
-
xsm
-
ysm
-
zsm
-
magnetic local time
-
magnetic latitude
-
L-shell
-
model gyrofrequency
-
electron density
-
manual correction flag 1: manually corrected, 0: no manual correction
-
Thermal Noise Amplitude, antennas XY summary (standard display)
-
---> Antenna X
-
---> Antenna Y
-
---> Antenna Z
-
Program Specifications [NO PLOT - LISTING ONLY]
-
Number of frequencies measured
-
Frequency
-
Echo Amplitude Image [nV] - Plasmagram - linear (frequency vs. range, standard display/orientation)
-
---> Movie - linear (frequency vs. range)
-
---> Plasmagram - linear (range vs frequency)
-
---> Movie - linear (range vs. frequency)
-
---> Plasmagram - range vs. log frequency
-
---> Movie - range vs. log frequency
-
---> Plasmagram - log frequency vs. range
-
---> Movie - log frequency vs. range
-
Plain images (x=frequency, y=range, no scales)
-
---> Movie (x=frequency, y=range, no scales)
-
---> Images (x=range, y=frequency, no scales)
-
---> Movie (x=range, y=frequency, no scales)
-
Most Probable Amplitude
-
Program Specifications (25 values/epoch) [NO PLOT - LISTING ONLY]
-
Actual number of frequencies being measured
-
Measured frequency values
-
Actual number of ranges being measured
-
Measured range values
-
Electron Auroral Images @ 1356A, Key Parameters, IMAGE Far UltraViolet (FUV) Spectrographic Imaging camera Electrons (SIE) - S. Mende (UC/Berkeley/SSL)
-
FUV/SIE Electron Images @ 1356A (raw cnts, no grid, small format, linear scaling) - use CDAWeb noise filter
-
---> As above (large format)
-
FUV/SIE Electron Images @ 1356A (raw cnts, mapped, large format, linear scaling) - use CDAWeb noise filter
-
---> As above (movie format)
-
FUV/SIE Electron Images @ 1356A (no grid, small format, log10 scaling)
-
---> As above (large format)
-
---> As above (movie format)
-
Spin number (time_equivalent)
-
FUV/SIE Data Quality parameter (1=Good, 2=Bad)
-
IMAGE Geocentric Distance
-
SIE Phosphor HV
-
expansion factor for FOV
-
Spin Phase Angle
-
orientation direction cosine X (direction of true spin axis at SIE Snapshot Time)
-
oriention direction cosine Y (direction of true spin axis at SIE Snapshot Time)
-
oriention direction cosine Z
-
geocentric position - GCI X
-
geocentric position GCI Y
-
geocentric position GCI Z
-
SIE spin axis orientation direction cosine X-direction, s/c frame
-
SIE spin axis orientation direction cosine Y-direction, s/c frame
-
SIE spin axis orientation direction cosine Z-direction, s/c frame
-
Proton Auroral Images @ 1218A, Key Parameters, IMAGE Far UltraViolet (FUV) Spectrographic Imaging camera Protons (SIP) - S. Mende (UC/Berkeley/SSL)
-
FUV/SIP Proton Images @1218A (raw cnts, no grid, small format, linear scale) - use CDAWeb noise filter
-
---> FUV/SIP Proton Images @1218A, as above (large format)
-
FUV/SIP Proton Images @1218A (raw cnts, mapped, large format, linear scale) - use CDAWeb noise filter
-
---> As above (movie format)
-
FUV/SIP Proton Images @ 1218A, (no grid, small format, log10 scaling)
-
---> As above (large format)
-
---> As above (movie format)
-
FUV/SIP Proton Images @1218A (raw cnts, mapped, large format, log10 scaling)
-
---> As above (movie format)
-
SIP spin number (time_equivalent)
-
FUV/SIP Quality parameter (1=Good, 2=Bad)
-
IMAGE Geocentric Distance
-
SIP Phospher HV voltage
-
expansion factor for FOV
-
Spin phase angle
-
orientation direction cosine X (direction of true spin axis at SIP Snapshot Time)
-
orientation direction cosine Y (direction of true spin axis at SIP Snapshot Time)
-
oriention direction cosine Z
-
geocentric position GCI X
-
geocentric position GCI Y
-
geocentric position GCI Z
-
X-coordinate of Spin Axis in Spacecraft System
-
Y-coordinate of Spin Axis in Spacecraft System
-
Z-coordinate of Spin Axis in Spacecraft System
-
Image Thermal Housekeeping - Dr. Jim Burch (Southwest Research Institute)
-
Auroral Images, Key Parameters, IMAGE Far UltraViolet (FUV) Wide-band Imaging Camera (WIC) - S. Mende (UC/Berkeley/SSL)
-
FUV/WIC LBH Auroral Images (raw cnts/14 bits, no grid, small format, linear scale)
-
---> FUV/WIC LBH Auroral Images, as above (large format)
-
---> as above (movie format)
-
---> FUV/WIC LBH Auroral Images, as above (small format, log10 scaling)
-
---> FUV/WIC LBH Auroral Images, as above (large format, log10 scaling)
-
---> as above (movie format log10 scaling)
-
FUV/WIC LBH Auroral Mapped Images (raw cnts/14 bits, large format, linear scale)
-
---> FUV/WIC LBH Auroral Mapped images, as above (movie format)
-
---> FUV/WIC LBH Auroral Mapped Images, as above (log10 scaling)
-
---> FUV/WIC LBH Auroral Mapped Images, as above (movie format, log10 scaling)
-
WIC spin number (time_equivalent)
-
WIC Quality parameter (1=Good, 2=Bad)
-
IMAGE Geocentric Distance
-
HV setting for WIC Phosphor
-
HV setting for WIC MCP
-
expansion factor for FOV
-
spin phase angle
-
orientation direction cosine X (direction of true spin axis at WIC Snapshot Time)
-
oriention direction cosine Y (direction of true spin axis at WIC Snapshot Time)
-
oriention direction cosine Z
-
IMAGE GCI position X
-
IMAGE GCI position Y
-
IMAGE GCI position Z
-
WIC spin axis orientation direction cosine X-direction, s/c frame
-
WIC spin axis orientation direction cosine Y-direction, s/c frame
-
WIC spin axis orientation direction cosine Z-direction, s/c frame
-
GME IMF and Plasma data IMF, Plasma, Indices, Energetic Proton Flux LEPEDEA MAG MITPLASMA SSC merged magnetic field and plasma data from cohoweb
-
IMP-8 GME 30-min Fluxes (SEP optimal bands) - R.E. McGuire (SPDF/Code 612.4, NASA's GSFC)
-
(Spectrogram-Full List) Proton Diff Intens (no bckgrd subtract), 30 energies 0.5-500 MeV, spin-avg
-
(Stacked time-series) Proton Diff Intens (no bckgrd subtract), 8 energies 0.5-20 MeV, spin-avg
-
(Stacked time-series) Proton Diff Intens (no bckgrd subtract), 8 energies 20-500 MeV, spin-avg
-
(Individual time-series) Proton Diff Intens (no bckgrd subtract), spin-avg
-
(Individual time-series) Proton Diff Intens (no bckgrd subtract), spin-avg, with error bars
-
(Individual time-series) Uncertainty, Proton Differential Intensity
-
GME/LED C Singles Rate (C<200 ct/sec implies enhanced/variable background <20 MeV/nuc)
-
(Spectrogram-Full List) Alpha Diff Intens (no bckgrd subtract), 21 energies 1-80 MeV/nuc, spin-avg
-
(Stacked time-series) Alpha Diff Intens (no bckgrd subtract), 7 energies 1-20 MeV/nuc, spin-avg
-
(Stacked time-series) Alpha Diff Intens (no bckgrd subtract), 4 energies 20-80 MeV/nuc, spin-avg
-
(Individual time-series) Alpha Diff Intens (no bckgrd subtract), spin-avg
-
(Individual time-series) Alpha Diff Intens (no bckgrd subtract), spin-avg, with error bars
-
(Individual time-series) Uncertainty, Alpha Differential Intensity
-
Electron Intensity, 0.3-18 MeV (no bckgrd subtract), spin-avg
-
Electron Intensity, 0.3-18 MeV (no bckgrd subtract), spin-avg, with error bars
-
Unc, Electron Intensity, 0.3-18 MeV
-
Electron Background Intensity, 0.3-18 MeV, spin-avg
-
Electron Background Intensity, 0.3-18 MeV, spin-avg, with error bars
-
Uncertainty, Electron Background Intensity 0.3-18 MeV
-
11 I8 GME Event Type Rates
-
11 I8 GME Event Type Rates with error bars
-
Uncertainty, 11 GME Event Type Rates
-
7 GME Singles Type Rates
-
7 GME Singles Type Rates with error bars
-
Uncertainty, 7 GME Singles Rates
-
OMNI Combined, Definitive, 1AU 1minute IMF and Plasma data - J.H. King, N. Papatashvilli (AdnetSystems, NASA GSFC)
-
OMNI ID code for IMF source spacecraft (see OMNI documentation link for codes)
-
OMNI ID code for IP plasma source spacecraft (see OMNI documentation link for codes)
-
Number of fine time scale points in IMF averages
-
Number of fine time scale points in plasma averages
-
Percent interpolated
-
Timeshift (seconds)
-
RMS Timeshift (seconds)
-
RMS, Phase front normal (nT)
-
Time between observations (seconds)
-
Magnitude of avg. field vector (nT) (last currently-available OMNI B-field data Dec 31, 2012)
-
Bx (nT), GSE
-
By (nT), GSE
-
Bz (nT), GSE
-
By (nT), GSM, determined from post-shift GSE components
-
Bz (nT), GSM, determined from post-shift GSE components
-
RMS SD B scalar (nT)
-
RMS SD field vector (nT)
-
Flow Speed (km/s), GSE
-
Vx Velocity (km/s), GSE
-
Vy Velocity (km/s), GSE
-
Vz Velocity (km/s), GSE
-
Proton density (n/cc) (last currently-available OMNI plasma data Dec 31, 2012)
-
Temperature (K)
-
Flow pressure (nPa)
-
Electric Field (mV/m)
-
Plasma beta
-
Alfven mach number
-
1AU IP Magnetosonic mach number
-
X s/c (Re), GSE
-
Y s/c (Re), GSE
-
Z s/c (Re), GSE
-
Bow Shock Nose (Re) location, X, GSE
-
Bow Shock Nose (Re) location, Y, GSE
-
Bow Shock Nose (Re) location, Z, GSE
-
AE - 1-minute AE-index, from WDC Kyoto (95/001-12/366)
-
AL - 1-minute AL-index, from WDC Kyoto (95/001-12/366)
-
AU - 1-minute AU-index,from WDC Kyoto (95/001-12/366)
-
SYM/D - 1-minute SYM/D index,from WDC Kyoto (95/001-12/366)
-
SYM/H - 1-minute SYM/H index,from WDC Kyoto (95/001-12/366)
-
ASY/D - 1-minute ASY/D index,from WDC Kyoto (95/001-12/366)
-
ASY/H - 1-minute ASY/H index,from WDC Kyoto (95/001-12/366)
-
PC - 1-minute Polar Cap index (North, Thule station), from Danish Meteorological Institute (Final 95/001-08/366, Preliminary 09/001-12/366)
-
OMNI Combined, Definitive, 1AU 5minute IMF and Plasma data - J.H. King, N. Papatashvilli (AdnetSystems, NASA GSFC) OMNI Combined, Definitive, 1AU Hourly IMF, Plasma, Energetic Proton Fluxes, and Solar and Magnetic Indices - J.H. King, N. Papatashvilli (ADNET, NASA GSFC)
-
OMNI ID code for IMF source spacecraft (see OMNI documentation link for codes)
-
OMNI ID code for IP plasma source spacecraft (see OMNI documentation link for codes)
-
Number of fine time scale points in IMF averages
-
Number of fine time scale points in plasma averages
-
Percent interpolated
-
Timeshift (seconds)
-
RMS Timeshift (seconds)
-
Time between observations (seconds)
-
Magnitude of avg. field vector (nT) (last currently-available OMNI B-field data Dec 31, 2012)
-
Bx (nT), GSE
-
By (nT), GSE
-
Bz (nT), GSE
-
By (nT), GSM, determined from post-shift GSE components
-
Bz (nT), GSM, determined from post-shift GSE components
-
RMS SD B scalar (nT)
-
RMS SD field vector (nT)
-
Flow Speed (km/s), GSE
-
Vx Velocity (km/s), GSE
-
Vy Velocity (km/s), GSE
-
Vz Velocity (km/s), GSE
-
Proton density (n/cc) (last currently-available OMNI plasma data Dec 31, 2012)
-
Temperature (K)
-
Flow pressure (nPa)
-
Electric Field (mV/m)
-
Plasma beta
-
Alfven mach number
-
1AU IP Magnetosonic mach number
-
X s/c (Re), GSE
-
Y s/c (Re), GSE
-
Z s/c (Re), GSE
-
Bow Shock Nose (Re) location, X, GSE
-
Bow Shock Nose (Re) location, Y, GSE
-
Bow Shock Nose (Re) location, Z, GSE
-
AE - 5-minute AE-index, from WDC Kyoto (95/001-12/366)
-
AL - 5-minute AL-index, from WDC Kyoto (95/001-12/366)
-
AU - 5-minute AU-index,from WDC Kyoto (95/001-12/366)
-
SYM/D - 5-minute SYM/D index,from WDC Kyoto (95/001-12/366)
-
SYM/H - 5-minute SYM/H index,from WDC Kyoto (95/001-12/366)
-
ASY/D - 5-minute ASY/D index,from WDC Kyoto (95/001-12/366)
-
ASY/H - 5-minute ASY/H index,from WDC Kyoto (95/001-12/366)
-
PC - 5-minute Polar Cap index (North, Thule station), from Danish Meteorological Institute (Final 95/001-08/366, Preliminary 09/001-12/366)
-
Proton flux >10 MeV (1/(SQcm-ster-s)) (all fluxes from GOES 1995/001 - 2012/366)
-
Proton flux >30 MeV (1/(SQcm-ster-s))
-
Proton flux >60 MeV (1/(SQcm-ster-s))
-
Bartels Rotation Number
-
OMNI ID code for IMF source spacecraft (see OMNI documentation link for codes)
-
OMNI ID code for IP plasma source spacecraft (see OMNI documentation link for codes)
-
# fine time scale IMF points
-
# fine time scale plasma points
-
1AU IP Average B Field Magnitude, nT, (last currently-available OMNI B-field data Dec 31, 2012)
-
1AU IP Magnitude of average field vector (nT)
-
1AU IP Latitude/Theta of average B vector (deg)
-
1AU IP Longitude/Phi of average B vector (deg)
-
1AU IP Bx (nT), GSE
-
1AU IP By (nT), GSE
-
1AU IP Bz (nT), GSE
-
1AU IP By (nT), GSM
-
1AU IP Bz (nT), GSM
-
RMS deviation of average B magnitude (nT)
-
RMS deviation of magnitude of the average vector field (nT)
-
RMS deviation Bx (nT), GSE
-
RMS deviation By (nT), GSE
-
RMS deviation Bz (nT), GSE
-
1AU IP Plasma Temperature, deg K, (last currently-available OMNI plasma data Jan 30, 2013)
-
1AU IP Ion number density (per cc)
-
1AU IP plasma flow speed (km/s)
-
1AU IP plasma flow direction longitude (deg), phi
-
1AU IP plasma flow direction latitude (deg), theta
-
1AU IP Alpha/proton ratio
-
1AU IP Flow pressure (nPa)
-
RMS deviation of plasma temperature (deg k)
-
RMS deviation of ion number density (per cc)
-
RMS deviation in plasma flow velocity (km/s)
-
RMS deviation in plasma flow direction longitude (deg), phi
-
RMS deviation in plasma flow direction latitude (deg), theta
-
RMS deviation alpha/proton ratio
-
1AU IP Electric Field (mV/m)
-
1AU IP Plasma beta
-
1AU IP Alfven mach number
-
1AU IP Magnetosonic mach number
-
1AU Proton flux > 1 MeV, 1/(SQcm-ster-s), (last currently-available OMNI proton fluxes 2013 Jan 30)
-
1AU Proton flux >2 MeV (1/(SQcm-ster-s))
-
1AU Proton flux >4 MeV (1/(SQcm-ster-s))
-
1AU Proton flux >10 MeV (1/(SQcm-ster-s))
-
1AU Proton flux >30 MeV (1/(SQcm-ster-s))
-
1AU Proton flux >60 MeV (1/(SQcm-ster-s))
-
Magnetospheric Contamination of 1AU Proton Flux code (6=No,<=5 see OMNI documentation)
-
Rz - Daily sunspot number, from NGDC (63/001-12/366)
-
F10.7 - Daily 10.7 cm solar radio flux, units: 10**(-22) Joules/second/square-meter/Hertz, from NGDC (63/001-12/366),
-
Kp - 3-hour Kp*10 (Kp=1-,1,1+ corresponds to 7,10,13), fromNGDC (63/001-12/366)
-
Dst - 1-hour Dst index (63/001-03/365), Provisional Dst (04/001-07/365), Quick-look Dst (07/001-13/025), from WDC Kyoto
-
AE - 1-hour AE-index (63/001-88/182), Provisional (89/060-12/335), from WDC Kyoto
-
ap - 3-hour ap-index (63/001-12/366), from NGDC
-
AL - 1-hour AL-index, from WDC Kyoto (63/001-88/182)
-
AU - 1-hour AU-index,from WDC Kyoto (63/001-88/182)
-
PC - 1-hour Polar Cap index (North, Thule station), from NGDC (Final 75/001-07/365, Preliminary 08/001-12/366)
-
Link to IMP7 LEPEDEA Energy-Time Spectrograms in GIF format at the University of Iowa. - L. A. Frank (University of Iowa) Link to IMP8 LEPEDEA Energy-Time Spectrograms in GIF format at the University of Iowa. - L. A. Frank (University of Iowa)
-
IMP-8 Fluxgate Magnetometer, 15.36-Second Resolution Data - A. Szabo / R.P. Lepping (NASA GSFC) IMP-8 Fluxgate Magnetometer, 320 msec Resolution Data - Adam Szabo, Joe King and Natalia Papitashvili (NASA GSFC)
-
Data source flag =1 if based on 320ms data, = 2 if based on old V2 15.36s data
-
Number of points in 15.36 second average. Max. number is 48(12) for data source flag equal 1(2)
-
Spacecraft position, GSE coordinates (orbit plot)
-
Spacecraft position, GSE coordinates (time-series plot)
-
Spacecraft position, GSM coordinates (orbit plot)
-
Spacecraft position, GSM coordinates (time-series plot)
-
B magnitude, <|B|>
-
B vector, GSE cartesian components
-
B vector, GSM cartesian components
-
Variances; diagonal elements Bxx, Byy, Bzz; GSE coordinates
-
Variances; off-diagonal elements Byx, Bzx, Bzy; GSE coordinates
-
Difference between record time tag and start of average,Relevant to data source flag = 2 records only.
-
Solar wind flag =0 if IMP in solar wind =1 otherwise
-
Bx (GSE)
-
By (GSE)
-
Bz (GSE)
-
B (Field magnitude)
-
IMP-8 MIT Plasma Investigation, High Resolution Definitive Data - A. Lazarus (MIT)
-
Spacecraft flag (6/7/8 =IMP 6/7/8)
-
Decimal Year
-
Region flag (1=Solar Wind, 2= Solar Wind or Magnetosheath, 3= Not Solar Wind)
-
Operating mode flag [1:Non-tracking (NTMS), 2:Tracking (TMS), 3:Acquisition (AQM)]
-
IMP8 Position, Cartesian-GSE - orbit plot
-
IMP8 Position, Cartesian-GSE - time series plots X/Y/Z
-
IMP8 position, Y-component, GSM
-
IMP8 position, Z-component, GSM
-
(Fits-based, no region selected) Proton Flow Speed
-
--> (Fits-based, solar wind only) Proton Flow Speed
-
--> (Moments-based, no region selected) Proton Flow Speed
-
--> (Moments-based, solar wind only) Proton Flow Speed
-
(Fits-based, no region selected) Proton most-probable thermal speed
-
--> (Fits-based, solar wind only) Proton most-probable thermal speed
-
--> (Moments-based, no region selected) Proton most-probable thermal speed
-
--> (Moments-based, solar wind only) Proton most-probable thermal speed
-
(Fits-based, no region selected) Proton number density
-
--> (Fits-based, solar wind only) Proton number density
-
--> (Moments-based, no region selected) Proton number density
-
--> (Moments-based, solar wind only) Proton number density
-
(Fits-based, no region selected) Proton East/West flow angle (aberration corrected)
-
--> (Fits-based, solar wind only) Proton East/West flow angle (aberration corrected)
-
--> (Moments-based, no region selected) Proton East/West flow angle (no aberration correction)
-
--> (Moments-based, solar wind only) Proton East/West flow angle (no aberration correction)
-
(Fits-based, no region selected) Proton flow elevation angle (from currents above noise threshold)
-
--> (Fits-based, solar wind only) Proton flow elevation angle (from currents above noise threshold)
-
--> (Moments-based, no region selected) Proton flow elevation angle (all currents)
-
--> (Moments-based, solar wind only) Proton flow elevation angle (all currents)
-
IMP-8 orbital position (multiple coordinate systems, from April 2003 updated I8 orbit model) - SSC ( SPDF/GSFC)
-
Orbital radius, IMP-8
-
GSE Latitude, IMP-8
-
GSE Longitude, IMP-8
-
GSE Local Time, IMP-8
-
GSM Latitude, IMP-8
-
GSM Longitude, IMP-8
-
GSE cartesian coordinates, orbit plot, IMP-8
-
GSE cartesian coordinates, time-series plot, IMP-8
-
GSM cartesian coordinates, orbit plot, IMP-8
-
GSM cartesian coordinates, time-series plot, IMP-8
-
OMNI Combined merged hourly magnetic field, plasma and ephermis data - J.H. King, N. Papatashvilli (AdnetSystems, NASA GSFC)
-
FE FPE MFI
-
ISEE1_Fast Electrons - K. Ogilvie, R. Fitzenreiter, & A. Vinas (GSFC Code 690)
-
ISEE 1_H1_FPE / Proton Fluid Parameters 6 RE - Bow Shock - S. Bame & J. Gosling (LANL) ISEE 2_H1_FPE / Proton Fluid Parameters 6 RE - Bow Shock - S. Bame & J. Gosling (LANL) ISEE1_H2_FPE / Solar Wind 24-sec Ion Moments - S. Bame & J. Gosling (LANL)
-
12-sec avg vector magnetic field at 4-sec intervals - C. T. Russell (UCLA) 12-sec avg vector magnetic field at 4-sec intervals - C. T. Russell (UCLA) 60-sec vector magnetic field - C. T. Russell (UCLA) 60-sec vector magnetic field - C. T. Russell (UCLA)
-
Magnetic Field X Comp. - Spacecraft axes (near GSE): 12-sec avg at 4-sec intervals
-
Magnetic Field Y Comp. - Spacecraft axes (near GSE): 12-sec avg at 4-sec intervals
-
Magnetic Field Z Comp. - Spacecraft axes (near GSE): 12-sec avg at 4-sec intervals
-
Total Magnetic Field: 12-sec avg at 4-sec intervals
-
Magnetic Field X Comp. - Spacecraft axes (near GSE): 12-sec avg at 4-sec intervals
-
Magnetic Field Y Comp. - Spacecraft axes (near GSE): 12-sec avg at 4-sec intervals
-
Magnetic Field Z Comp. - Spacecraft axes (near GSE): 12-sec avg at 4-sec intervals
-
Total Magnetic Field: 12-sec avg at 4-sec intervals
-
Magnetic Field X Component - Spacecraft axes (near GSE)
-
Magnetic Field Y Component - Spacecraft axes (near GSE)
-
Magnetic field Z Component - Spacecraft axes (near GSE)
-
Total Magnetic Field
-
BX_GSM
-
BY_GSM
-
BZ_GSM
-
BX_GSE
-
BY_GSE
-
BZ_GSE
-
Standard deviation of Bx values
-
Standard deviation of By values
-
Standard deviation of Bz values
-
Standard deviation of total field BTOT
-
SQRT (SDX**2 + SDY**2 + SDZ**2 - SDT**2)
-
Model internal field - total observed field
-
Model internal field - observed field (X component, GSM)
-
Model internal field - observed field (Y component, GSM)
-
Model internal field - observed field (Z component, GSM)
-
Model internal + external fields - observed (total)
-
Model internal + external fields - observed (X component, GSM)
-
Model internal + external fields - observed (Y component, GSM)
-
Model internal + external fields - observed (Z component, GSM)
-
Radial distance (Earth Radii) to spacecraft
-
Radial distance (Earth Radii), X-component, GSM
-
Radial distance (Earth Radii), Y-component, GSM
-
Radial distance (Earth Radii), Z-component, GSM
-
Radial distance (Earth Radii), X-component, GSE
-
Radial distance (Earth Radii), Y-component, GSE
-
Radial distance (Earth Radii), Z-component, GSE
-
Z position of nominal Russell/Brody neutral sheet, GSM
-
Dipole tilt angle
-
L-shell parameter
-
Local_time
-
MLAT: Magnetic Latitude
-
Sun-Earth-Satellite angle
-
Clock angle from Y GSM axis (positive toward +Z GSM)
-
Spin period of spacecraft
-
SPIN_LON_GSM: Longitude of spin axis of spacecraft in GSM
-
SPIN_LAT_GSM: Latitude of spin axis of spacecraft in GSM
-
SPIN_LON_GSE: Longitude of spin axis of spacecraft in GSE
-
SPIN_LAT_GSE: Latitude of spin axis of spacecraft in GSE
-
X component of velocity in GSM (km/s)
-
Y component of velocity in GSM (km/s)
-
Z component of velocity in GSM (km/s)
-
Total velocity (km/sec)
-
DVX_GSM: Comp. of ISEE 1 speed relative to ISEE 2
-
DVY_GSM: Comp. of ISEE 1 speed relative to ISEE 2
-
DVZ_GSM: Comp. of ISEE 1 speed relative to ISEE 2
-
Total speed of ISEE 1 relative to ISEE 2
-
DX_GSM: X separation of craft (ISEE-2 to ISEE-1)
-
DY_GSM: Y separation of craft (ISEE-2 to ISEE-1)
-
DZ_GSM: Z separation of craft (ISEE-2 to ISEE-1)
-
DX_GSE: X separation of craft (ISEE-2 to ISEE-1)
-
DY_GSE: Y separation of craft (ISEE-2 to ISEE-1)
-
DZ_GSE: Z separation of craft (ISEE-7 to ISEE-1)
-
DR: Total separation of spacecraft (ISEE-2 to ISEE-1)
-
NMPX_GSE: X comp. of model normal to magnetopause.
-
NMPY_GSE: Y comp. of model normal to magnetopause
-
NMPZ_GSE: Z comp. of model normal to magnetopause
-
NMP_Sep: Separation vector <ISEE 1> - <ISEE 2> component along the model normal to the magnetopause
-
NBSX_GSE: X comp. of model normal to bow shock
-
NBSY_GSE: Y comp. of model normal to bow shock
-
NBSZ_GSE: Z comp. of model normal to bow shock
-
NBS_Sep: Separation vector <ISEE 1> - <ISEE 2> component along bow shock normal.
-
Quality Flag. =1 is best.
-
Magnetic Field X Component - Spacecraft axes (near GSE)
-
Magnetic Field Y Component - Spacecraft axes (near GSE)
-
Magnetic field Z Component - Spacecraft axes (near GSE)
-
Total Magnetic Field
-
BX_GSM
-
BY_GSM
-
BZ_GSM
-
BX_GSE
-
BY_GSE
-
BZ_GSE
-
Standard deviation of Bx values
-
Standard deviation of By values
-
Standard deviation of Bz values
-
Standard deviation of total field BTOT
-
SQRT (SDX**2 + SDY**2 + SDZ**2 - SDT**2)
-
Model internal field - total observed field
-
Model internal field - observed field (X component, GSM)
-
Model internal field - observed field (Y component, GSM)
-
Model internal field - observed field (Z component, GSM)
-
Model internal + external fields - observed (total)
-
Model internal + external fields - observed (X component, GSM)
-
Model internal + external fields - observed (Y component, GSM)
-
Model internal + external fields - observed (Z component, GSM)
-
Radial distance (Earth Radii) to spacecraft
-
Radial distance (Earth Radii), X-component, GSM
-
Radial distance (Earth Radii), Y-component, GSM
-
Radial distance (Earth Radii), Z-component, GSM
-
Radial distance (Earth Radii), X-component, GSE
-
Radial distance (Earth Radii), Y-component, GSE
-
Radial distance (Earth Radii), Z-component, GSE
-
Z position of nominal Russell/Brody neutral sheet, GSM
-
Dipole tilt angle
-
L-shell parameter
-
Local_time
-
MLAT: Magnetic Latitude
-
Sun-Earth-Satellite angle
-
Clock angle from Y GSM axis (positive toward +Z GSM)
-
Spin period of spacecraft
-
SPIN_LON_GSM: Longitude of spin axis of spacecraft in GSM
-
SPIN_LAT_GSM: Latitude of spin axis of spacecraft in GSM
-
SPIN_LON_GSE: Longitude of spin axis of spacecraft in GSE
-
SPIN_LAT_GSE: Latitude of spin axis of spacecraft in GSE
-
X component of velocity in GSM (km/s)
-
Y component of velocity in GSM (km/s)
-
Z component of velocity in GSM (km/s)
-
Total velocity (km/sec)
-
DVX_GSM: Comp. of ISEE 1 speed relative to ISEE 2
-
DVY_GSM: Comp. of ISEE 1 speed relative to ISEE 2
-
DVZ_GSM: Comp. of ISEE 1 speed relative to ISEE 2
-
Total speed of ISEE 1 relative to ISEE 2
-
DX_GSM: X separation of craft (ISEE-2 to ISEE-1)
-
DY_GSM: Y separation of craft (ISEE-2 to ISEE-1)
-
DZ_GSM: Z separation of craft (ISEE-2 to ISEE-1)
-
DX_GSE: X separation of craft (ISEE-2 to ISEE-1)
-
DY_GSE: Y separation of craft (ISEE-2 to ISEE-1)
-
DZ_GSE: Z separation of craft (ISEE-7 to ISEE-1)
-
DR: Total separation of spacecraft (ISEE-2 to ISEE-1)
-
NMPX_GSE: X comp. of model normal to magnetopause.
-
NMPY_GSE: Y comp. of model normal to magnetopause
-
NMPZ_GSE: Z comp. of model normal to magnetopause
-
NMP_Sep: Separation vector <ISEE 1> - <ISEE 2> component along the model normal to the magnetopause
-
NBSX_GSE: X comp. of model normal to bow shock
-
NBSY_GSE: Y comp. of model normal to bow shock
-
NBSZ_GSE: Z comp. of model normal to bow shock
-
NBS_Sep: Separation vector <ISEE 1> - <ISEE 2> component along bow shock normal.
-
Quality Flag. =1 is best.
-
ACN ADL AME BRZ BUR CNA KER KRU KSH KWA LAU MERGEDSTATIONS ODG ORR OTT QUI RES SNT SOD SOL SYO TOPIST TOPS TRO ULA WNK
-
ISIS-2 Topside Sounder Ionogram over Ascension Is., U.K. (lat/lon= -8/346) - R.F. Benson (NASA GSFC)
-
ISIS-2 Topside Sounder Ionogram over Terre Adelie, Antarctica (lat/lon=-67/140) - R.F. Benson (NASA GSFC)
-
ISIS-2 Topside Sounder Ionogram over Ahmedabad, India (lat/lon=23/73) - R.F. Benson (NASA GSFC)
-
ISIS-2 Topside Sounder Ionogram over Brazzavillle, Congo (lat/lon=-4/15) - R.F. Benson (NASA GSFC)
-
ISIS-2 Topside Sounder Ionogram over Johannesburg, South Africa (lat/lon=-26/28) - R.F. Benson (NASA GSFC)
-
ISIS-2 Topside Sounder Ionogram over Las Palmas, Canary Is., Spain (lat/lon=28/345) - R.F. Benson (NASA GSFC)
-
ISIS-1 Topside Sounder Ionograms over Kerguelen Island, France (Lat=-49, Long=70) - R.F. Benson (NASA GSFC) ISIS-2 Topside Sounder Ionogram over Kerguelen Is., France (lat/lon=-49/70) - R.F. Benson (NASA GSFC)
-
ISIS-2 Topside Sounder Ionogram over Kourou, French Guyana (lat/lon=5/307) - R.F. Benson (NASA GSFC)
-
ISIS-1 Topside Sounder Ionogram over Kashima, Japan (lat/lon=36/141) - R.F. Benson (NASA GSFC) ISIS-2 Topside Sounder Ionogram over Kashima, Japan (lat/lon=36/141) - R.F. Benson (NASA GSFC)
-
ISIS-1 Topside Sounder Ionogram over Kwajalein, Marshall Is. (lat/lon=9/168) - R.F. Benson (NASA GSFC) ISIS-2 Topside Sounder Ionogram over Kwajalein, Marshall Is. (lat/lon=9/168) - R.F. Benson (NASA GSFC)
-
ISIS-2 Topside Sounder Ionogram over Lauder, New Zealand (lat/lon=-45/170) - R.F. Benson (NASA GSFC)
-
ISIS-1 Topside sounder ionograms, all stations merged into a single dataset - R.F. Benson (NASA GSFC)
-
IONOGRAM: expandable thumbnails of color-coded relative amplitude (0-255) on ionogram time (x) vs. apparent range from satellite down (y) grid
-
IONOGRAM: continuous-film display of color-coded relative amplitude (0-255) on ionogram time (x) vs. apparent range from satellite down (y) grid
-
-- Sounder frequency in MHz (incl. fixed and swept frequency parts) - ONLY positively identified frequencies are shown
-
-- Scan line number of start of swept portion (before is fixed portion)
-
-- Electron Gyrofrequency in MHz
-
ORBIT PARAMETERS: Satellite altitude in km
-
-- Latitude (-90 to 90) in degree
-
-- Longitude (-180 to 180) in degree
-
-- Geomagnetic latitude in degree
-
-- Geomagnetic longitude (-180 to 180) in degree
-
-- Magnetic inclination (Dip angle of magnetic field direction) in degrees
-
-- Invariant latitude in degree
-
-- L shell (McIlwain parameter)
-
-- Solar zenith angle in degree
-
-- Local Mean Time (LMT) in decimal hours
-
-- Geomagnetic Local Time in decimal hours
-
-- Spacecraft in(=1)/out(=2) sunlight
-
CODES & MODES: Satellite-ID: 1=Alouette-1, 2=Aloutte-2, 3=ISIS-1, 4=ISIS-2
-
-- Telemetry station ID (nn) (http://nssdc.gsfc.nasa.gov/space/isis/isis-table1-new.html
-
-- Transmitter power code: 1=Prim(400W) 2=Sec(400W)
-
-- Sounder/receiver code: 0 = off, 1 = on
-
-- Pulses per second code: 0 = 30 pps, 1 = 60 pps
-
-- DMODE (transmitter on/off for alternate frame pairs): 0 = off, 1 = on
-
-- GMODE (transmission of alternate frames of swept and fixed frequency): 0 = off, 1 = on
-
-- MMODE (sounder mixed mode): 0 = off, 1 = on
-
-- Fixed frequency code: 0=off, 1=0.25, 2=0.48, 3=1.00, 4=1.95, 5=4.00, 6=9.303 MHz
-
-- Cylindrical Electrostatic Probe (CEP) on(1)/off(0)
-
-- VLF (0.05-30 kHz) instrument on(1)/off(0)
-
-- Spherical Electrostatic Analyzer on(1)/off(0)
-
-- Ion Mass Spectrometer 1 on(1)/off(0)
-
-- Ion Mass Spectrometer 2 on(1)/off(0)
-
-- Soft Particle Spectrometer on(1)/off(0)
-
-- Energetic Particle Detector on(1)/off(0)
-
ISIS-1 Topside Sounder Ionogram over Ouagadougou, Burkina Faso (lat/lon=14/359) - R.F. Benson (NASA GSFC) ISIS-2 Topside Sounder Ionogram over Ouagadougou, Burkina Faso (lat/lon=14/359) - R.F. Benson (NASA GSFC)
-
ISIS-1 Topside Sounder Ionogram over Orroral, Australia (lat/lon=-36/149) - R.F. Benson (NASA GSFC) ISIS-2 Topside Sounder Ionogram over Orroral Australia (lat/lon=-36/149) - R.F. Benson (NASA GSFC)
-
ISIS-1 Topside Sounder Ionogram over Ottawa, Canada (lat/lon=45/284) - R.F. Benson (NASA GSFC) ISIS-2 Topside Sounder Ionogram over Ottawa, Canada (lat/lon=45/284) - R.F. Benson (NASA GSFC)
-
ISIS-1 Topside Sounder Ionogram over Quito, Equador (lat/lon=-1/281) - R.F. Benson (NASA GSFC) ISIS-2 Topside Sounder Ionogram over Quito, Equador (lat/lon=-1/281) - R.F. Benson (NASA GSFC)
-
ISIS-1 Topside Sounder Ionogram over Resolute Bay, Canada (lat/lon=75/265) - R.F. Benson (NASA GSFC) ISIS-2 Topside Sounder Ionogram over Resolute Bay, Canada (lat/lon=75/265) - R.F. Benson (NASA GSFC)
-
ISIS-1 Topside Sounder Ionogram over Santiago, Chile (lat/lon=-33/298) - R.F. Benson (NASA GSFC) ISIS-2 Topside Sounder Ionogram over Santiago, Chile (lat/lon=-33/298) - R.F. Benson (NASA GSFC)
-
ISIS-1 Topside Sounder Ionogram over Sodankyla, Finland (lat/lon=67/27) - R.F. Benson (NASA GSFC) ISIS-2 Topside Sounder Ionogram over Sodankyla, Finland (lat/lon=67/27) - R.F. Benson (NASA GSFC)
-
ISIS-2 Topside Sounder Ionogram over Falkland Is., U.K. (lat/lon=-52/302) - R.F. Benson (NASA GSFC)
-
ISIS-2 Topside Sounder Ionogram over Syowa Base, Antartica (lat/lon=-69/40) - R.F. Benson (NASA GSFC)
-
ISIS-2 TOPIST produced electron density profiles, of highest quality (quality flag = 2 and 3 - X. Huang and B. Reinisch (University of MassachusettsLowell)
-
ISIS-1 Topside Electron Density Profiles, manually scaled at CRC - J. E. Jackson (Communication Research Centre (CRC), Ottawa) ISIS-2 Topside Electron Density Profiles, manually scaled at CRC - J. E. Jackson (Communication Research Centre (CRC), Ottawa)
-
ISIS-1 Topside Sounder Ionogram over Tromso, Norway (lat/lon=70/19) - R.F. Benson (NASA GSFC) ISIS-2 Topside Sounder Ionogram over Tromso, Norway (lat/lon=70/19) - R.F. Benson (NASA GSFC)
-
ISIS-1 Topside Sounder Ionogram over Fairbanks, Alaska (lat/lon=65/212) - R.F. Benson (NASA GSFC) ISIS-2 Topside Sounder Ionogram over Fairbanks, Alaska (lat/lon=65/212) - R.F. Benson (NASA GSFC)
-
ISIS-1 Topside Sounder Ionogram over Winkfield, U.K. (lat/lon=51/359) - R.F. Benson (NASA GSFC) ISIS-2 Topside Sounder Ionogram over Winkfield, U.K. (lat/lon=51/359) - R.F. Benson (NASA GSFC)
-
TEPC
-
Experiment Data, ISS TEPC (from ASCII DOS.TXT file) - Neal Zapp (NASA Space Radiation Analysis Group/Johnson Space Center)
-
AKR COR DEF ELE ENF EPI ICD MFI PCI VDP WAV
-
Interball Tail Probe AKR Radioemission flux, Key Parameters - V.Kurilchik (Sternberg Astronomical Inst.,Moscow State University, 119899, Universitetsky pr., 13 Moscow, Russia)
-
Interball Tail Probe CORALL ion moments, Key Parameters - Yu.Yermolaev (Space Research Inst., Russian Acad. Sci., Moscow, Russia)
-
Interball Auroral Probe Orbital Data, Key Parameters - V.Prokhorenko (Space Research Inst., Russian Acad. Sci., Moscow, Russia. ) Interball Tail Orbital Data, Key Parameters - V.Prokhorenko (Space Research Inst., Russian Acad. Sci., Moscow, Russia. )
-
Interball Tail probe ELECTRON instrument, Key Parameters - J.-A. Sauvaud (CESR, BP 4346, 31029, Toulouse, France )
-
Interball Auroral Probemeasurements of spectra and anisotropy of electrons SKA-3, Key Parameters - Yu. Galperin, R. Kovrazhkin, A. Kuzmin, F. Shuiskaya (IKI RAN, Russia)
-
Interball Auroral Energetic Particle Instruments, KeyParameters - DOK-2: K.Kudela (DOK-2: Institute of experimental physics Slovak Acad. Sci., Kosize, Slovakia ) Interball Tail Energetic Particle Instruments, Key Parameters - DOK-2: K.Kudela (DOK-2: Institute of experimental physics Slovak Acad. Sci., Kosize, Slovakia )
-
Electron Flux, 26-29 keV (DOK-2 firstelectron sensor, fixed)
-
Electron Flux, 25-28 keV (DOK-2 firstelectron sensor, fixed)
-
Proton Flux, 18-24 keV (DOK-2 first proton sensor, fixed)
-
Proton Flux, 20-26 keV (DOK-2 second proton sensor, scan)
-
Electron Flux, 21-26 keV (DOK-2 first electron sensor, fixed)
-
Electron Flux, 76-95 keV (DOK-2 first electron sensor, fixed)
-
Proton Flux, 22-28 keV (DOK-2 first proton sensor, fixed)
-
Proton Flux, 21-27 keV (DOK-2 second proton sensor, scan)
-
Electron Flux, 150-500 keV (SKA-2 electron sensor)
-
Proton Flux, 1-3 MeV (SKA-2 proton sensor)
-
Interball Auroral Probe Ion Composition Experiment PROMICS, Key Parameters - I.Sandahl (IRF, Kiruna, Sweden) Interball Tail Probe Ion Composition Experiment PROMICS, Key Parameters - I.Sandahl (IRF, Kiruna, Sweden)
-
H+ counts, 2 min sum from TRICS2 D6 antisunward detector
-
H+ counts, 2 min sum from TRICS2 D8 (GSE YZ plane) detector
-
H+ counts, 2 min sum from TRICS2 D10 sunward detector
-
O+ counts, 2 min sum from TRICS2 D6 antisunward detector
-
O+ counts, 2 min sum from TRICS2 D8 (GSE YZ plane) detector
-
O+ counts, 2 min sum from TRICS2 D10 sunward detector
-
H+ counts, 2 min sum from TRICS2 D6 antisunward detector
-
H+ counts, 2 min sum from TRICS2 D8 (GSE YZ plane) detector
-
H+ counts, 2 min sum from TRICS2 D10 sunward detector
-
O+ counts, 2 min sum from TRICS2 D6 antisunward detector
-
O+ counts, 2 min sum from TRICS2 D8 (GSE YZ plane) detector
-
O+ counts, 2 min sum from TRICS2 D10 sunward detector
-
Interball Auroral probe Magnetic Field, Key Parameters - V.Petrov (IMAP:IZMIRAN,Troitsk, Russia. ) Interball Tail probe Magnetic Field, Key Parameters - S.Romanov (Space Research Inst., Russian Acad. Sci., Moscow, Russia. ) Interball-Tail 6 sec vector magnetic field data - M.Nozdrachev (IKI, Moscow, Russia)
-
Magnetic Field average of magnitudes, scalar
-
Magnetic Field Index
-
Magnetic Field, 3 coord cartesian GSE
-
Magnetic Field, 3 coord cartesian GSM
-
Magnetic Field absolute value, scalar
-
Magnetic Field Fluctuations at 2 freq (2 and 725 Hz)
-
Magnetic Field Magnitude, 6 sec, scalar
-
Magnetic Field, 6 sec, cartesian GSE
-
Magnetic Field, 6 sec, polar GSE
-
Interball Polar Cap Activity Index, Key Parameters - V.Sergeev (Institute of physics Univ. of St.-Peterburg St.-Peterburg, Russia )
-
Interball Tail probe VDP instrument, Key Parameters - J.Safrankova (Charles University, Prague, Czech Republic )
-
Interball Tail probe Magnetic Field, Key Parameters - S.Romanov (Space Research Inst., Russian Acad. Sci., Moscow, Russia. )
-
MPA SPA
-
LANL 1989 Magnetospheric Plasma Analyzer Key Parameters - Mike Henderson (LANL) LANL 1989-046 Magnetospheric Plasma Analyzer High Resolution data - Mike Henderson (LANL) LANL 1990 Magnetospheric Plasma Analyzer Key Parameters - Mike Henderson (LANL) LANL 1991 Magnetospheric Plasma Analyzer Key Parameters - Mike Henderson (LANL) LANL 1994 Magnetospheric Plasma Analyzer Key Parameters - Mike Henderson (LANL) LANL 1997 Magnetospheric Plasma Analyzer High Resolution data - Mike Henderson (LANL) LANL 1997 Magnetospheric Plasma Analyzer Key Parameters - Mike Henderson (LANL) LANL 2001 Magnetospheric Plasma Analyzer Key Parameters - Mike Henderson (LANL) LANL 2002 Magnetospheric Plasma Analyzer Key Parameters - Mike Henderson (LANL)
-
Partial density of low energy ions (1-130 eV/e)
-
Velocity, 3 comp. in s/c coord., of low energy ions (1-130 eV/e)
-
Partial density of high energy ions (.13-45 keV/e)
-
Temperatures, parallel & perp. for high energy ions (.13-45 keV/e)
-
Proton symmetry axis: polar ang. relative to Earth direction, azim. ang. from north
-
Ratio Tperp/Tmid for high energy ions, (.13-45 keV/e)
-
Partial density of electrons (.03-45 keV/q)
-
Temperatures, parallel & perp. for electrons (.03-45 keV/q)
-
Electron symmetry axis: polar ang. relative to Earth direction azim. ang. from north
-
Ratio Tperp/Tmid for electrons (.03-45 keV/q)
-
Spacecraft potential
-
Background count rate
-
S/C position, Geographic coordinates (radius,lat,long)
-
S/C position, Magnetic coordinates (radius,mlat,mlt)
-
[SPECIALIZED USE ONLY] [Computed 3-min vector] S/C position, GCI coordinates (X, Y, Z)
-
[SPECIALIZED USE ONLY] [Computed 3-min vector] S/C position, GEO coordinates (Radius, Lat.,Lon.)
-
UT time of record
-
Invalid mainframe counts
-
Geographic location x,y,z
-
Background count rates 6P's and 6E's
-
Spacecraft potential
-
Quality flags
-
Azimuth angle for ions
-
Azimuth angle for electrons
-
Background corrected Ion counts
-
Background corrected Electron counts
-
Partial density for low-e ions
-
Low-e ion velocity vector
-
Partial density high-E electrons
-
Temperature high-e ions
-
Polar,Azim angle high-e ion sym axis
-
Partial density electrons
-
Temperature electrons
-
Polar,Azim angle elect symm axis
-
Partial density of low energy ions (1-130 eV/e)
-
Velocity, 3 comp. in s/c coord., of low energy ions (1-130 eV/e)
-
Partial density of high energy ions (.13-45 keV/e)
-
Temperatures, parallel & perp. for high energy ions (.13-45 keV/e)
-
Proton symmetry axis: polar ang. relative to Earth direction, azim. ang. from north
-
Ratio Tperp/Tmid for high energy ions, (.13-45 keV/e)
-
Partial density of electrons (.03-45 keV/q)
-
Temperatures, parallel & perp. for electrons (.03-45 keV/q)
-
Electron symmetry axis: polar ang. relative to Earth direction azim. ang. from north
-
Ratio Tperp/Tmid for electrons (.03-45 keV/q)
-
Spacecraft potential
-
Background count rate
-
S/C position, Geographic coordinates (radius,lat,long)
-
S/C position, Magnetic coordinates (radius,mlat,mlt)
-
[SPECIALIZED USE ONLY] [Computed 3-min vector] S/C position, GCI coordinates (X, Y, Z) (NOT Available prior to 1993/03/15)
-
[SPECIALIZED USE ONLY] [Computed 3-min vector] S/C position, GEO coordinates (Radius, Lat, Lon) (NOT available prior to 1993/03/15)
-
Partial density of low energy ions (1-130 eV/e)
-
Velocity, 3 comp. in s/c coord., of low energy ions (1-130 eV/e)
-
Partial density of high energy ions (.13-45 keV/e)
-
Temperatures, parallel & perp. for high energy ions (.13-45 keV/e)
-
Proton symmetry axis: polar ang. relative to Earth direction, azim. ang. from north
-
Ratio Tperp/Tmid for high energy ions, (.13-45 keV/e)
-
Partial density of electrons (.03-45 keV/q)
-
Temperatures, parallel & perp. for electrons (.03-45 keV/q)
-
Electron symmetry axis: polar ang. relative to Earth direction azim. ang. from north
-
Ratio Tperp/Tmid for electrons (.03-45 keV/q)
-
Spacecraft potential
-
Background count rate
-
S/C position, Geographic coordinates (radius,lat,long)
-
S/C position, Magnetic coordinates (radius,mlat,mlt)
-
[SPECIALIZED USE ONLY] [Computed 3-min vector] S/C position, GCI coordinates (X, Y, Z)
-
[SPECIALIZED USE ONLY] [Computed 3-min vector] S/C position, GEO coordinates (Radius, Lat, Lon)
-
Partial density of low energy ions (1-130 eV/e)
-
Velocity, 3 comp. in s/c coord., of low energy ions (1-130 eV/e)
-
Partial density of high energy ions (.13-45 keV/e)
-
Temperatures, parallel & perp. for high energy ions (.13-45 keV/e)
-
Proton symmetry axis: polar ang. relative to Earth direction, azim. ang. from north
-
Ratio Tperp/Tmid for high energy ions, (.13-45 keV/e)
-
Partial density of electrons (.03-45 keV/q)
-
Temperatures, parallel & perp. for electrons (.03-45 keV/q)
-
Electron symmetry axis: polar ang. relative to Earth direction azim. ang. from north
-
Ratio Tperp/Tmid for electrons (.03-45 keV/q)
-
Spacecraft potential
-
Background count rate
-
S/C position, Geographic coordinates (radius,lat,long)
-
S/C position, Magnetic coordinates (radius,mlat,mlt)
-
[SPECIALIZED USE ONLY] [Computed 3-min vector] S/C position, GCI coordinates (X, Y, Z)
-
[SPECIALIZED USE ONLY] [Computed 3-min vector] S/C position, GEO coordinates (Radius, Lat, Lon)
-
UT time of record
-
Invalid mainframe counts
-
Geographic location x,y,z
-
Background count rates 6P's and 6E's
-
Spacecraft potential
-
Quality flags
-
Azimuth angle for ions
-
Azimuth angle for electrons
-
Background corrected Ion counts
-
Background corrected Electron counts
-
Partial density for low-e ions
-
Low-e ion velocity vector
-
Partial density high-E electrons
-
Temperature high-e ions
-
Polar,Azim angle high-e ion sym axis
-
Partial density electrons
-
Temperature electrons
-
Polar,Azim angle elect symm axis
-
Partial density of low energy ions (1-130 eV/e)
-
Velocity, 3 comp. in s/c coord., of low energy ions (1-130 eV/e)
-
Partial density of high energy ions (.13-45 keV/e)
-
Temperatures, parallel & perp. for high energy ions (.13-45 keV/e)
-
Proton symmetry axis: polar ang. relative to Earth direction, azim. ang. from north
-
Ratio Tperp/Tmid for high energy ions, (.13-45 keV/e)
-
Partial density of electrons (.03-45 keV/q)
-
Temperatures, parallel & perp. for electrons (.03-45 keV/q)
-
Electron symmetry axis: polar ang. relative to Earth direction azim. ang. from north
-
Ratio Tperp/Tmid for electrons (.03-45 keV/q)
-
Spacecraft potential
-
Background count rate
-
S/C position, Geographic coordinates (radius,lat,long)
-
S/C position, Magnetic coordinates (radius,mlat,mlt)
-
[SPECIALIZED USE ONLY] [Computed 3-min vector] S/C position, GCI coordinates (X, Y, Z)
-
[SPECIALIZED USE ONLY] [Computed 3-min vector] S/C position, GEO coordinates (Radius, Lat, Lon)
-
Partial density of low energy ions (1-130 eV/e)
-
Velocity, 3 comp. in s/c coord., of low energy ions (1-130 eV/e)
-
Partial density of high energy ions (.13-45 keV/e)
-
Temperatures, parallel & perp. for high energy ions (.13-45 keV/e)
-
Proton symmetry axis: polar ang. relative to Earth direction, azim. ang. from north
-
Ratio Tperp/Tmid for high energy ions, (.13-45 keV/e)
-
Partial density of electrons (.03-45 keV/q)
-
Temperatures, parallel & perp. for electrons (.03-45 keV/q)
-
Electron symmetry axis: polar ang. relative to Earth direction azim. ang. from north
-
Ratio Tperp/Tmid for electrons (.03-45 keV/q)
-
Spacecraft potential
-
Background count rate
-
S/C position, Geographic coordinates (radius,lat,long)
-
S/C position, Magnetic coordinates (radius,mlat,mlt)
-
[SPECIALIZED USE ONLY] [Computed 3-min vector] S/C position, GCI coordinates (X, Y, Z)
-
Partial density of low energy ions (1-130 eV/e)
-
Velocity, 3 comp. in s/c coord., of low energy ions (1-130 eV/e)
-
Partial density of high energy ions (.13-45 keV/e)
-
Temperatures, parallel & perp. for high energy ions (.13-45 keV/e)
-
Proton symmetry axis: polar ang. relative to Earth direction, azim. ang. from north
-
Ratio Tperp/Tmid for high energy ions, (.13-45 keV/e)
-
Partial density of electrons (.03-45 keV/q)
-
Temperatures, parallel & perp. for electrons (.03-45 keV/q)
-
Electron symmetry axis: polar ang. relative to Earth direction azim. ang. from north
-
Ratio Tperp/Tmid for electrons (.03-45 keV/q)
-
Spacecraft potential
-
Background count rate
-
S/C position, Geographic coordinates (radius,lat,long)
-
S/C position, Magnetic coordinates (radius,mlat,mlt)
-
[SPECIALIZED USE ONLY] [Computed 3-min vector] S/C position, GCI coordinates (X, Y, Z)
-
LANL 1989 Synchronous Orbit Particle Analyzer Key Parameters - Reiner Friedel (LANL) LANL 1990 Synchronous Orbit Particle Analyzer Key Parameters - Reiner Friedel (LANL) LANL 1991 Synchronous Orbit Particle Analyzer Key Parameters - Reiner Friedel (LANL) LANL 1994 Synchronous Orbit Particle Analyzer Key Parameters - Reiner Friedel (LANL) LANL 1997 Synchronous Orbit Particle Analyzer Key Parameters - Reiner Friedel (LANL)
-
Spacecraft position, geographic (latitude, longitude (deg), radius (RE))
-
Electron temperature in 2 energy bands (50-225 keV, 315-1500 keV)
-
Proton temperature in 2 energy bands (50-400 keV, 1.2-5.0 MeV)
-
Partial electron densities in 2 energy bands (50-225 keV, 315-1500 keV)
-
Partial proton densities in 2 energy bands (50-400 keV, 1.2-5.0 MeV)
-
Alpha flux (Helium) from ~0.9 MeV to ~1.3 Mev
-
Heavy Ion flux at ~5 MeV to ~15 MeV (includes carbon, nitrogen, and oxygen
-
Electron flux in 2 energy bands (50-225 keV, 315-1500 keV)
-
Proton flux in 2 energy bands (50-400 keV, 1.2-5.0 MeV)
-
Spacecraft position, geographic (lat., long. (deg), radius (RE))
-
Electron temperature in 2 energy bands (50-225 keV, 315-1500 keV)
-
Partial electron densities in 2 energy bands (50-225 keV, 315-1500 keV)
-
Electron flux in 2 energy bands (50-225 keV, 315-1500 keV)
-
Spacecraft position, geographic (latitude, longitude (deg), radius (RE))
-
Electron temperature in 2 energy bands (50-225 keV, 315-1500 keV)
-
Proton temperature in 2 energy bands (50-400 keV, 1.2-5.0 MeV)
-
Partial electron densities in 2 energy bands (50-225 keV, 315-1500 keV)
-
Partial proton densities in 2 energy bands (50-400 keV, 1.2-5.0 MeV)
-
Alpha flux (Helium) from ~0.9 MeV to ~1.3 Mev
-
Heavy Ion flux at ~5 MeV to ~15 MeV (includes carbon, nitrogen, and oxygen
-
Electron flux in 2 energy bands (50-225 keV, 315-1500 keV)
-
Proton flux in 2 energy bands (50-400 keV, 1.2-5.0 MeV)
-
Spacecraft position, geographic (latitude, longitude (deg), radius (RE))
-
Electron temperature in 2 energy bands (50-225 keV, 315-1500 keV)
-
Proton temperature in 2 energy bands (50-400 keV, 1.2-5.0 MeV)
-
Partial electron densities in 2 energy bands (50-225 keV, 315-1500 keV)
-
Partial proton densities in 2 energy bands (50-400 keV, 1.2-5.0 MeV)
-
Alpha flux (Helium) from ~0.9 MeV to ~1.3 Mev
-
Heavy Ion flux at ~5 MeV to ~15 MeV (includes carbon, nitrogen, and oxygen
-
Electron flux in 2 energy bands (50-225 keV, 315-1500 keV)
-
Proton flux in 2 energy bands (50-400 keV, 1.2-5.0 MeV)
-
Spacecraft position, geographic (latitude, longitude (deg), radius (RE))
-
Electron temperature in 2 energy bands (50-225 keV, 315-1500 keV)
-
Proton temperature in 2 energy bands (50-400 keV, 1.2-5.0 MeV)
-
Partial electron densities in 2 energy bands (50-225 keV, 315-1500 keV)
-
Partial proton densities in 2 energy bands (50-400 keV, 1.2-5.0 MeV)
-
Alpha flux (Helium) from ~0.9 MeV to ~1.3 Mev
-
Heavy Ion flux at ~5 MeV to ~15 MeV (includes carbon, nitrogen, and oxygen
-
Electron flux in 2 energy bands (50-225 keV, 315-1500 keV)
-
Proton flux in 2 energy bands (50-400 keV, 1.2-5.0 MeV)
-
MAG
-
MESSENGER interplanetary magnetic field (1-second/high resolution) in RTN coordinates - Prof. Sean C. Solomon (Carnegie Institution of Washington)
-
SEM
-
1 minute re-processed particle count rates, fluxes, and model fields, SEM-1 MEPED, NOAA-05/TIROS-N - Shing F. Fung (SPDF, GSFC/NASA) 1 minute re-processed particle count rates, fluxes, and model fields, SEM-1 MEPED, NOAA-06 - Shing F. Fung (SPDF, GSFC/NASA) 1 minute re-processed particle count rates, fluxes, and model fields, SEM-1 MEPED, NOAA-07 - Shing F. Fung (SPDF, GSFC/NASA) 1 minute re-processed particle count rates, fluxes, and model fields, SEM-1 MEPED, NOAA-08 - Shing F. Fung (SPDF, GSFC/NASA) 1 minute re-processed particle count rates, fluxes, and model fields, SEM-1 MEPED, NOAA-10 - Shing F. Fung (SPDF, GSFC/NASA) 1 minute re-processed particle count rates, fluxes, and model fields, SEM-1 MEPED, NOAA-12 - Shing F. Fung (SPDF, GSFC/NASA) 1 minute re-processed particle count rates, fluxes, and model fields, SEM-1 MEPED, NOAA-14 - Shing F. Fung (SPDF, GSFC/NASA)
-
Fractional Day of Year
-
Altitude
-
Latitude
-
Longitude
-
SM MLT
-
Pitch angle for MEPED 0 deg. telescopes (pa0)
-
Pitch angle for MEPED 81 deg. telescope (pa81)
-
Pitch angle for MEPED 83 deg. telescope (pa83)
-
Quality flag for MEPED detector: 0 (good), -1 (bad)
-
MEPED Count Rates for 0 Deg. telescopes, 5 proton and 3 electron energy bands (counts_0dg)
-
MEPED Count Rates for 81/83 Deg. telescopes, 5 proton and 3 electron energy bands (counts_90dg)
-
MEPED Count Rates for omnidirectional proton telescope, 3 energy bands (counts_omni)
-
MEPED calculated perpendicular proton flux, 5 energy bands (Jperp_p)
-
MEPED calculated perpendicular electron flux, 3 energy bands (Jperp_e)
-
MEPED calculated omnidirectional proton flux, 5 energy bands from 0/81 and 3 from omni telescopes
-
MEPED calculated omnidirectional electron flux, 3 energy bands from 0/83 telescopes
-
IGRF magnetic field in GSM
-
B/(Min. B along field line) (IGRF)
-
MclWain L value in IGRF
-
T89 magnetic field in GSM
-
B/(Min. B along field line) (T89)
-
MclWain L value in T89
-
T96 magnetic field in GSM
-
B/(Min. B along field line) (T96)
-
MclWain L value in T96
-
T01 magnetic field in GSM
-
B/(Min. B along field line) (T01)
-
MclWain L value in T01
-
Fractional Day of Year
-
Altitude
-
Latitude
-
Longitude
-
SM MLT
-
Pitch angle for MEPED 0 deg. telescopes (pa0)
-
Pitch angle for MEPED 81 deg. telescope (pa81)
-
Pitch angle for MEPED 83 deg. telescope (pa83)
-
Quality flag for MEPED detector: 0 (good), -1 (bad)
-
MEPED Count Rates for 0 Deg. telescopes, 5 proton and 3 electron energy bands (counts_0dg)
-
MEPED Count Rates for 81/83 Deg. telescopes, 5 proton and 3 electron energy bands (counts_90dg)
-
MEPED Count Rates for omnidirectional proton telescope, 3 energy bands (counts_omni)
-
MEPED calculated perpendicular proton flux, 5 energy bands (Jperp_p)
-
MEPED calculated perpendicular electron flux, 3 energy bands (Jperp_e)
-
MEPED calculated omnidirectional proton flux, 5 energy bands from 0/81 and 3 from omni telescopes
-
MEPED calculated omnidirectional electron flux, 3 energy bands from 0/83 telescopes
-
IGRF magnetic field in GSM
-
B/(Min. B along field line) (IGRF)
-
MclWain L value in IGRF
-
T89 magnetic field in GSM
-
B/(Min. B along field line) (T89)
-
MclWain L value in T89
-
T96 magnetic field in GSM
-
B/(Min. B along field line) (T96)
-
MclWain L value in T96
-
T01 magnetic field in GSM
-
B/(Min. B along field line) (T01)
-
MclWain L value in T01
-
Fractional Day of Year
-
Altitude
-
Latitude
-
Longitude
-
SM MLT
-
Pitch angle for MEPED 0 deg. telescopes (pa0)
-
Pitch angle for MEPED 81 deg. telescope (pa81)
-
Pitch angle for MEPED 83 deg. telescope (pa83)
-
Quality flag for MEPED detector: 0 (good), -1 (bad)
-
MEPED Count Rates for 0 Deg. telescopes, 5 proton and 3 electron energy bands (counts_0dg)
-
MEPED Count Rates for 81/83 Deg. telescopes, 5 proton and 3 electron energy bands (counts_90dg)
-
MEPED Count Rates for omnidirectional proton telescope, 3 energy bands (counts_omni)
-
MEPED calculated perpendicular proton flux, 5 energy bands (Jperp_p)
-
MEPED calculated perpendicular electron flux, 3 energy bands (Jperp_e)
-
MEPED calculated omnidirectional proton flux, 5 energy bands from 0/81 and 3 from omni telescopes
-
MEPED calculated omnidirectional electron flux, 3 energy bands from 0/83 telescopes
-
IGRF magnetic field in GSM
-
B/(Min. B along field line) (IGRF)
-
MclWain L value in IGRF
-
T89 magnetic field in GSM
-
B/(Min. B along field line) (T89)
-
MclWain L value in T89
-
T96 magnetic field in GSM
-
B/(Min. B along field line) (T96)
-
MclWain L value in T96
-
T01 magnetic field in GSM
-
B/(Min. B along field line) (T01)
-
MclWain L value in T01
-
Fractional Day of Year
-
Altitude
-
Latitude
-
Longitude
-
SM MLT
-
Pitch angle for MEPED 0 deg. telescopes (pa0)
-
Pitch angle for MEPED 81 deg. telescope (pa81)
-
Pitch angle for MEPED 83 deg. telescope (pa83)
-
Quality flag for MEPED detector: 0 (good), -1 (bad)
-
MEPED Count Rates for 0 Deg. telescopes, 5 proton and 3 electron energy bands (counts_0dg)
-
MEPED Count Rates for 81/83 Deg. telescopes, 5 proton and 3 electron energy bands (counts_90dg)
-
MEPED Count Rates for omnidirectional proton telescope, 3 energy bands (counts_omni)
-
MEPED calculated perpendicular proton flux, 5 energy bands (Jperp_p)
-
MEPED calculated perpendicular electron flux, 3 energy bands (Jperp_e)
-
MEPED calculated omnidirectional proton flux, 5 energy bands from 0/81 and 3 from omni telescopes
-
MEPED calculated omnidirectional electron flux, 3 energy bands from 0/83 telescopes
-
IGRF magnetic field in GSM
-
B/(Min. B along field line) (IGRF)
-
MclWain L value in IGRF
-
T89 magnetic field in GSM
-
B/(Min. B along field line) (T89)
-
MclWain L value in T89
-
T96 magnetic field in GSM
-
B/(Min. B along field line) (T96)
-
MclWain L value in T96
-
T01 magnetic field in GSM
-
B/(Min. B along field line) (T01)
-
MclWain L value in T01
-
Fractional Day of Year
-
Altitude
-
Latitude
-
Longitude
-
SM MLT
-
Pitch angle for MEPED 0 deg. telescopes (pa0)
-
Pitch angle for MEPED 81 deg. telescope (pa81)
-
Pitch angle for MEPED 83 deg. telescope (pa83)
-
Quality flag for MEPED detector: 0 (good), -1 (bad)
-
MEPED Count Rates for 0 Deg. telescopes, 5 proton and 3 electron energy bands (counts_0dg)
-
MEPED Count Rates for 81/83 Deg. telescopes, 5 proton and 3 electron energy bands (counts_90dg)
-
MEPED Count Rates for omnidirectional proton telescope, 3 energy bands (counts_omni)
-
MEPED calculated perpendicular proton flux, 5 energy bands (Jperp_p)
-
MEPED calculated perpendicular electron flux, 3 energy bands (Jperp_e)
-
MEPED calculated omnidirectional proton flux, 5 energy bands from 0/81 and 3 from omni telescopes
-
MEPED calculated omnidirectional electron flux, 3 energy bands from 0/83 telescopes
-
IGRF magnetic field in GSM
-
B/(Min. B along field line) (IGRF)
-
MclWain L value in IGRF
-
T89 magnetic field in GSM
-
B/(Min. B along field line) (T89)
-
MclWain L value in T89
-
T96 magnetic field in GSM
-
B/(Min. B along field line) (T96)
-
MclWain L value in T96
-
T01 magnetic field in GSM
-
B/(Min. B along field line) (T01)
-
MclWain L value in T01
-
Fractional Day of Year
-
Altitude
-
Latitude
-
Longitude
-
SM MLT
-
Pitch angle for MEPED 0 deg. telescopes (pa0)
-
Pitch angle for MEPED 81 deg. telescope (pa81)
-
Pitch angle for MEPED 83 deg. telescope (pa83)
-
Quality flag for MEPED detector: 0 (good), -1 (bad)
-
MEPED Count Rates for 0 Deg. telescopes, 5 proton and 3 electron energy bands (counts_0dg)
-
MEPED Count Rates for 81/83 Deg. telescopes, 5 proton and 3 electron energy bands (counts_90dg)
-
MEPED Count Rates for omnidirectional proton telescope, 3 energy bands (counts_omni)
-
MEPED calculated perpendicular proton flux, 5 energy bands (Jperp_p)
-
MEPED calculated perpendicular electron flux, 3 energy bands (Jperp_e)
-
MEPED calculated omnidirectional proton flux, 5 energy bands from 0/81 and 3 from omni telescopes
-
MEPED calculated omnidirectional electron flux, 3 energy bands from 0/83 telescopes
-
IGRF magnetic field in GSM
-
B/(Min. B along field line) (IGRF)
-
MclWain L value in IGRF
-
T89 magnetic field in GSM
-
B/(Min. B along field line) (T89)
-
MclWain L value in T89
-
T96 magnetic field in GSM
-
B/(Min. B along field line) (T96)
-
MclWain L value in T96
-
T01 magnetic field in GSM
-
B/(Min. B along field line) (T01)
-
MclWain L value in T01
-
Fractional Day of Year
-
Altitude
-
Latitude
-
Longitude
-
SM MLT
-
Pitch angle for MEPED 0 deg. telescopes (pa0)
-
Pitch angle for MEPED 81 deg. telescope (pa81)
-
Pitch angle for MEPED 83 deg. telescope (pa83)
-
Quality flag for MEPED detector: 0 (good), -1 (bad)
-
MEPED Count Rates for 0 Deg. telescopes, 4 proton and 2 electron energy bands (counts_0dg)
-
MEPED Count Rates for 81/83 Deg. telescopes, 2 electron energy bands (counts_90dg)
-
MEPED Count Rates for omnidirectional proton telescope, 3 energy bands (counts_omni)
-
MEPED calculated perpendicular electron flux, 2 energy bands (Jperp_e)
-
MEPED calculated omnidirectional proton flux, 3 energy bands from omni telescopes
-
MEPED calculated omnidirectional electron flux, 2 energy bands from 0/83 telescopes
-
IGRF magnetic field in GSM
-
B/(Min. B along field line) (IGRF)
-
MclWain L value in IGRF
-
T89 magnetic field in GSM
-
B/(Min. B along field line) (T89)
-
MclWain L value in T89
-
T96 magnetic field in GSM
-
B/(Min. B along field line) (T96)
-
MclWain L value in T96
-
T01 magnetic field in GSM
-
B/(Min. B along field line) (T01)
-
MclWain L value in T01
-
IMF and Plasma data IMF, Plasma, Indices, Energetic Proton Flux merged magnetic field and plasma data from cohoweb
-
OMNI Combined, Definitive, 1AU 1minute IMF and Plasma data - J.H. King, N. Papatashvilli (AdnetSystems, NASA GSFC)
-
OMNI ID code for IMF source spacecraft (see OMNI documentation link for codes)
-
OMNI ID code for IP plasma source spacecraft (see OMNI documentation link for codes)
-
Number of fine time scale points in IMF averages
-
Number of fine time scale points in plasma averages
-
Percent interpolated
-
Timeshift (seconds)
-
RMS Timeshift (seconds)
-
RMS, Phase front normal (nT)
-
Time between observations (seconds)
-
Magnitude of avg. field vector (nT) (last currently-available OMNI B-field data Dec 31, 2012)
-
Bx (nT), GSE
-
By (nT), GSE
-
Bz (nT), GSE
-
By (nT), GSM, determined from post-shift GSE components
-
Bz (nT), GSM, determined from post-shift GSE components
-
RMS SD B scalar (nT)
-
RMS SD field vector (nT)
-
Flow Speed (km/s), GSE
-
Vx Velocity (km/s), GSE
-
Vy Velocity (km/s), GSE
-
Vz Velocity (km/s), GSE
-
Proton density (n/cc) (last currently-available OMNI plasma data Dec 31, 2012)
-
Temperature (K)
-
Flow pressure (nPa)
-
Electric Field (mV/m)
-
Plasma beta
-
Alfven mach number
-
1AU IP Magnetosonic mach number
-
X s/c (Re), GSE
-
Y s/c (Re), GSE
-
Z s/c (Re), GSE
-
Bow Shock Nose (Re) location, X, GSE
-
Bow Shock Nose (Re) location, Y, GSE
-
Bow Shock Nose (Re) location, Z, GSE
-
AE - 1-minute AE-index, from WDC Kyoto (95/001-12/366)
-
AL - 1-minute AL-index, from WDC Kyoto (95/001-12/366)
-
AU - 1-minute AU-index,from WDC Kyoto (95/001-12/366)
-
SYM/D - 1-minute SYM/D index,from WDC Kyoto (95/001-12/366)
-
SYM/H - 1-minute SYM/H index,from WDC Kyoto (95/001-12/366)
-
ASY/D - 1-minute ASY/D index,from WDC Kyoto (95/001-12/366)
-
ASY/H - 1-minute ASY/H index,from WDC Kyoto (95/001-12/366)
-
PC - 1-minute Polar Cap index (North, Thule station), from Danish Meteorological Institute (Final 95/001-08/366, Preliminary 09/001-12/366)
-
OMNI Combined, Definitive, 1AU 5minute IMF and Plasma data - J.H. King, N. Papatashvilli (AdnetSystems, NASA GSFC) OMNI Combined, Definitive, 1AU Hourly IMF, Plasma, Energetic Proton Fluxes, and Solar and Magnetic Indices - J.H. King, N. Papatashvilli (ADNET, NASA GSFC)
-
OMNI ID code for IMF source spacecraft (see OMNI documentation link for codes)
-
OMNI ID code for IP plasma source spacecraft (see OMNI documentation link for codes)
-
Number of fine time scale points in IMF averages
-
Number of fine time scale points in plasma averages
-
Percent interpolated
-
Timeshift (seconds)
-
RMS Timeshift (seconds)
-
Time between observations (seconds)
-
Magnitude of avg. field vector (nT) (last currently-available OMNI B-field data Dec 31, 2012)
-
Bx (nT), GSE
-
By (nT), GSE
-
Bz (nT), GSE
-
By (nT), GSM, determined from post-shift GSE components
-
Bz (nT), GSM, determined from post-shift GSE components
-
RMS SD B scalar (nT)
-
RMS SD field vector (nT)
-
Flow Speed (km/s), GSE
-
Vx Velocity (km/s), GSE
-
Vy Velocity (km/s), GSE
-
Vz Velocity (km/s), GSE
-
Proton density (n/cc) (last currently-available OMNI plasma data Dec 31, 2012)
-
Temperature (K)
-
Flow pressure (nPa)
-
Electric Field (mV/m)
-
Plasma beta
-
Alfven mach number
-
1AU IP Magnetosonic mach number
-
X s/c (Re), GSE
-
Y s/c (Re), GSE
-
Z s/c (Re), GSE
-
Bow Shock Nose (Re) location, X, GSE
-
Bow Shock Nose (Re) location, Y, GSE
-
Bow Shock Nose (Re) location, Z, GSE
-
AE - 5-minute AE-index, from WDC Kyoto (95/001-12/366)
-
AL - 5-minute AL-index, from WDC Kyoto (95/001-12/366)
-
AU - 5-minute AU-index,from WDC Kyoto (95/001-12/366)
-
SYM/D - 5-minute SYM/D index,from WDC Kyoto (95/001-12/366)
-
SYM/H - 5-minute SYM/H index,from WDC Kyoto (95/001-12/366)
-
ASY/D - 5-minute ASY/D index,from WDC Kyoto (95/001-12/366)
-
ASY/H - 5-minute ASY/H index,from WDC Kyoto (95/001-12/366)
-
PC - 5-minute Polar Cap index (North, Thule station), from Danish Meteorological Institute (Final 95/001-08/366, Preliminary 09/001-12/366)
-
Proton flux >10 MeV (1/(SQcm-ster-s)) (all fluxes from GOES 1995/001 - 2012/366)
-
Proton flux >30 MeV (1/(SQcm-ster-s))
-
Proton flux >60 MeV (1/(SQcm-ster-s))
-
Bartels Rotation Number
-
OMNI ID code for IMF source spacecraft (see OMNI documentation link for codes)
-
OMNI ID code for IP plasma source spacecraft (see OMNI documentation link for codes)
-
# fine time scale IMF points
-
# fine time scale plasma points
-
1AU IP Average B Field Magnitude, nT, (last currently-available OMNI B-field data Dec 31, 2012)
-
1AU IP Magnitude of average field vector (nT)
-
1AU IP Latitude/Theta of average B vector (deg)
-
1AU IP Longitude/Phi of average B vector (deg)
-
1AU IP Bx (nT), GSE
-
1AU IP By (nT), GSE
-
1AU IP Bz (nT), GSE
-
1AU IP By (nT), GSM
-
1AU IP Bz (nT), GSM
-
RMS deviation of average B magnitude (nT)
-
RMS deviation of magnitude of the average vector field (nT)
-
RMS deviation Bx (nT), GSE
-
RMS deviation By (nT), GSE
-
RMS deviation Bz (nT), GSE
-
1AU IP Plasma Temperature, deg K, (last currently-available OMNI plasma data Jan 30, 2013)
-
1AU IP Ion number density (per cc)
-
1AU IP plasma flow speed (km/s)
-
1AU IP plasma flow direction longitude (deg), phi
-
1AU IP plasma flow direction latitude (deg), theta
-
1AU IP Alpha/proton ratio
-
1AU IP Flow pressure (nPa)
-
RMS deviation of plasma temperature (deg k)
-
RMS deviation of ion number density (per cc)
-
RMS deviation in plasma flow velocity (km/s)
-
RMS deviation in plasma flow direction longitude (deg), phi
-
RMS deviation in plasma flow direction latitude (deg), theta
-
RMS deviation alpha/proton ratio
-
1AU IP Electric Field (mV/m)
-
1AU IP Plasma beta
-
1AU IP Alfven mach number
-
1AU IP Magnetosonic mach number
-
1AU Proton flux > 1 MeV, 1/(SQcm-ster-s), (last currently-available OMNI proton fluxes 2013 Jan 30)
-
1AU Proton flux >2 MeV (1/(SQcm-ster-s))
-
1AU Proton flux >4 MeV (1/(SQcm-ster-s))
-
1AU Proton flux >10 MeV (1/(SQcm-ster-s))
-
1AU Proton flux >30 MeV (1/(SQcm-ster-s))
-
1AU Proton flux >60 MeV (1/(SQcm-ster-s))
-
Magnetospheric Contamination of 1AU Proton Flux code (6=No,<=5 see OMNI documentation)
-
Rz - Daily sunspot number, from NGDC (63/001-12/366)
-
F10.7 - Daily 10.7 cm solar radio flux, units: 10**(-22) Joules/second/square-meter/Hertz, from NGDC (63/001-12/366),
-
Kp - 3-hour Kp*10 (Kp=1-,1,1+ corresponds to 7,10,13), fromNGDC (63/001-12/366)
-
Dst - 1-hour Dst index (63/001-03/365), Provisional Dst (04/001-07/365), Quick-look Dst (07/001-13/025), from WDC Kyoto
-
AE - 1-hour AE-index (63/001-88/182), Provisional (89/060-12/335), from WDC Kyoto
-
ap - 3-hour ap-index (63/001-12/366), from NGDC
-
AL - 1-hour AL-index, from WDC Kyoto (63/001-88/182)
-
AU - 1-hour AU-index,from WDC Kyoto (63/001-88/182)
-
PC - 1-hour Polar Cap index (North, Thule station), from NGDC (Final 75/001-07/365, Preliminary 08/001-12/366)
-
OMNI Combined merged hourly magnetic field, plasma and ephermis data - J.H. King, N. Papatashvilli (AdnetSystems, NASA GSFC)
-
MAGPLASMA
-
Pioneer-10 merged hourly magnetic field, plasma and ephermis data - E.J. Smith (HVM) and A. Barnes (PLS) (NASA JPL/AMES) PioneerVenus merged hourly magnetic field, plasma and ephermis data - Dr. T. C. Russell (magnetic field), Dr. Aaron Barnes (plasma) (UCLA, NASA/Ames) Pioner-11 merged hourly magnetic field, plasma and ephermis data - E.J. Smith (HVM) and A. Barnes (PLS) (NASA JPL/AMES)
-
CAM CEP EFI HYD MFE PIX PWI TID TIM UVI VIS tim
-
Ion Fluxes 1-200 keV/q @ 3-minute resolution, Polar CAMMICE - R. Friedel (Lanl) ~2.3-minute Key Parameters, CAMMICE/Polar Charge And Mass Magnetospheric Ion Composition Experiment - T. A. Fritz (Boston University)
-
Ion (mainly H+) flux (from DC rate) at 25 energies 1-200 keV/Q, 32-spin/3-minute averages
-
H+ Flux (usually)at 19 energies 5-200 keV/Q, 32-spin/3-minute averages
-
He+ flux (usually) at 14 energies 20-200 keV/Q, 32-spin/3-minute averages
-
He+2 flux (usually) at 24 energies 1-200 keV/Q, 32-spin/3-minute averages
-
O<+3 flux (usually) at 12 energies 35-200 keV/Q, 32-spin/3-minute averages
-
O>+2 flux (usually) at 19 energies 1.5-100 keV/Q, 32-spin/3-minute averages
-
H+/sec MICS ( +-1deg FOV perp to spin)
-
H+/sec MICS with error bars
-
error on MICS H+ rate
-
He+ rate MICS (+-1deg FOV perp to spin)
-
He+ rate MICS with error bars
-
error on MICS He+ rate
-
He++ rate MICS (+-1deg FOV perp to spin)
-
He++ rate MICS with error bars
-
error on MICS He++ rate
-
O+,O++ rate MICS (+-1deg FOV perp to spin)
-
O+,O++ rate MICS with error bars
-
error on MICS O+ rate
-
O>2+ rate MICS (+-1deg FOV perp to spin)
-
O>2+ rate MICS with error bars
-
error on MICS O>2+ rate
-
Protons 0.5<E<1.7 MeV (HIT, +-6deg FOV perp to spin)
-
Protons 0.5<E<1.7 MeV (HIT) with error bars
-
error on HIT H_le rate
-
Protons 1.7<E<5.8 MeV (HIT, +-6deg FOV perp to spin)
-
Protons 1.7<E<5.8 MeV (HIT) with error bars
-
error on HIT H_he rate
-
He 1.4<E<4.3 MeV (HIT, +-6deg FOV perp to spin)
-
He 1.4<E<4.3 MeV (HIT) with error bars
-
error on HIT He_le rate
-
He 4.3<E<9.6 MeV (HIT, +-6deg FOV perp to spin)
-
He 4.3<E<9.6 MeV (HIT) with error bars
-
error on HIT He_he rate
-
CNO:5-10,6-11,7-13 MeV (HIT, +-6deg FOV perp to spin)
-
CNO:5-10,6-11,7-13 MeV (HIT) with error bars
-
error on HITS CNO low E rate
-
CNO:17-92,18-92,21-92 MeV (HIT, +-6deg FOV perp to spin)
-
CNO:17-92,18-92,21-92 MeV (HIT) with error bars
-
error on HITS CNO high E rate
-
CEPPAD Energetic particles & angular distribution, Key parameters - J. B.Blake (Aerospace Corp. )
-
Spin averaged integral proton rate 10 deg from spin axis
-
Spin averaged integral proton rate 10 deg from spin axis, with error bars
-
Stat. err. P 10 deg
-
Spin averaged integral proton rate 30 deg from spin axis
-
Spin averaged integral proton rate 30 deg from spin axis, with error bars
-
Stat. err. P 30 deg
-
Spin averaged integral proton rate 50 deg from spin axis
-
Spin averaged integral proton rate 50 deg from spin axis, with error bars
-
Stat. err. P 50 deg
-
Good/Bad => 10/0
-
Spin averaged integral elec rate 10 deg from spin axis
-
Spin averaged integral elec rate 10 deg from spin axis, with error bars
-
Stat. err. e 10 deg
-
Spin averaged integral elec rate 30 deg from spin axis
-
Spin averaged integral elec rate 30 deg from spin axis, with error bars
-
Stat. err. e 30 deg
-
Spin averaged integral elec rate 50 deg from spin axis
-
Spin averaged integral elec rate 50 deg from spin axis, with error bars
-
Stat. err. e 50 deg
-
HIST Spin averaged integral Ion rate
-
HIST Spin averaged integral Ion rate, with error bars
-
Stat. err. HIST ions
-
HIST spin averaged integral electron rate
-
HIST spin averaged integral electron rate, with error bars
-
Error HIST ele
-
HIST Front detec singles (high)
-
HIST Front detec singles (high), with error bars
-
Stat. err. HIST front detec (H)
-
HIST front detec singles (A1)
-
HIST front detec singles (A1), with error bars
-
Stat. err. HIST front detec (A1)
-
Good/Bad => 10/0
-
Polar Electric Field (x,y) in Despun Spacecraft Coordinates - Mozer (UC Berkeley) Polar Electric Field Instrument, Key Parameters - F. Mozer (UC Berkeley) Polar Spacecraft Attitude in GSE Coordinates - Mozer (UC Berkeley) Polar Spacecraft Potential and Inferred Plasma Density - Mozer (UC Berkeley)
-
X component of the electric field, DSC coordinate system
-
Y component of the electric field, DSC coordinate system
-
E-Field spin plane, Scalar
-
E-Field in xy plane, Scalar
-
E-Field in z plane, Scalar
-
E-Field Sigma, Scalar
-
Spacecraft Potential, Scalar
-
Spectral density at 32Hz, Scalar
-
Spectral density at 256Hz, Scalar
-
Spectral density at 2048Hz, Scalar
-
Probe Bias Current, Scalar
-
Indicator of Plasma Density, Scalar
-
X component of the attitude vector (GSE)
-
Y component of the attitude vector (GSE)
-
Z component of the attitude vector (GSE)
-
Spacecraft potential
-
plasma density
-
Polar Fast Plasma Analyzer Key Parameter - J. Scudder (U of Iowa) Polar Fast Plasma Analyzer 13.8 second Resolution Parameters - J. Scudder (U of Iowa)
-
Polar Magnetic Field,Key Parameters - C.T. Russell (UCLA)
-
POLAR position, 3 comp. in cartesian GSE (0.92 min res.)
-
POLAR position, 3 comp. in cartesian GSM (0.92 min res.)
-
POLAR position, 3 comp. in cartesian SM (0.92 min res.)
-
POLAR orbit radial distance (0.92 min res.)
-
Dipole tilt angle (deg) using dipole moment of data, scalar (IGRF with secular correction (0.92 min res.)
-
Observed total magnetic field, scalar (6 sec res.)
-
Observed vector magnetic field in cartesian S/C coord. (6 sec res.)
-
Observed compressional standard dev. of magnetic field (0.92 min res.)
-
Observed transverse delta of magnetic field (0.92 min res.)
-
Observed total magnetic field, scalar (0.92 min res.)
-
Observed vector magnetic field in cartesian GSE (0.92 min res.)
-
Observed vector magnetic field in cartesian GSM (0.92 min res.)
-
Observed vector magnetic field in cartesian SM (0.92 min res.)
-
Total IGRF95 magnetic field, scalar (0.92 min res.)
-
IGRF95 vector magnetic field in cartesian GSE (0.92 min res.)
-
IGRF95 vector magnetic field in cartesian GSM (0.92 min res.)
-
IGRF95 vector magnetic field in cartesian SM (0.92 min res.)
-
Total IGRF95&T95 magnetic field, scalar (0.92 min res.)
-
IGRF95&T95 vector magnetic field in cartesian GSE (0.92 min res.)
-
IGRF95&T95 vector magnetic field in cartesian GSM (0.92 min res.)
-
IGRF95&T95 vector magnetic field in cartesian SM (0.92 min res.)
-
North magnetic footprint, latitude and longitude in cartesian GEO (0.92 min res.)
-
South magnetic footprint, latitude and longitude in cartesian GEO (0.92 min res.)
-
Vector sampling interval deviation : dt-120000 (microsec)(0.92 min res.)
-
Time axis label: POLAR position, 3 comp. in cartesian GSE (0.92 min res.)
-
Time axis label: POLAR position, 3 comp. in cartesian GSM (0.92 min res.)
-
Time axis label: POLAR position, 3 comp. in cartesian SM (0.92 min res.)
-
Time axis label: POLAR orbit radial distance (0.92 min res.)
-
Time axis label: Dipole tilt angle (deg) using dipole moment of data, scalar (IGRF with secular correction (0.92 min res.)
-
Polar Ionospheric X-ray Imaging Experiment Key Parameters - D. Chenette (Lockheed)
-
Low Energy X-ray Source Array, 64x64 image
-
--> Low Energy X-ray Source Array with geographic map overlay
-
[DO NOT USE: UNDER-DEVELOPMENT] --> Test Display
-
--> Low Energy X-ray Source Array, azimuthal projection to geographic coordinates
-
--> Low Energy X-ray Source Array, azimuthal projection to magnetic local time and invariant latitude
-
Low Energy X-ray Source Array, 64x64 mpeg movie image
-
--> Low Energy X-ray Source Array with geographic map overlay
-
--> Low Energy X-ray Source Array, azimuthal projection to geographic coordinates
-
--> Low Energy X-ray Source Array, azimuthal projection to magnetic local time and invariant latitude
-
64x64 X-ray Source Array for high energy range
-
--> High Energy X-ray Source Array with geographic map overlay
-
[DO NOT USE: UNDER-DEVELOPMENT] --> Test Display
-
--> High Energy X-ray Source Array, azimuthal projection to geographic coordinates (fixed-sun orientation)
-
--> High Energy X-ray Source Array, azimuthal projection to magnetic local time and invariant latitude
-
64x64 X-ray Source Array for high energy range, mpeg movie image.
-
--> High Energy X-ray Source Array with geographic map overlay
-
--> High Energy X-ray Source Array, azimuthal projection to geographic coordinates (fixed-sun orientation)
-
--> High Energy X-ray Source Array, azimuthal projection to magnetic local time and invariant latitude
-
Mean photon intensity over entire image for low energy range
-
Mean photon intensity over entire image for high energy range
-
Polar Plasma Wave Instrument Key Parameter - D. Gurnett (U. Iowa) Polar Plasma Wave Instrument, High Frequency Waveform Receiver - D. Gurnett (U. Iowa) Polar Plasma Wave Instrument, High Frequency Waveform Receiver - D. Gurnett (U. Iowa) Polar Plasma Wave Instrument, High Frequency Waveform Receiver, 16 kHz/30 usec (interferometry) fields - D. Gurnett (U. Iowa) Polar Plasma Wave Instrument, High Frequency Waveform Receiver, 2 kHz (6-channel, ~0.0002 sec resolution) fields - D. Gurnett (U. Iowa) Polar Plasma Wave Instrument, High Frequency Waveform Receiver, 6-channel (~1.5 usec resolution) fields - D. Gurnett (U. Iowa) Polar Plasma Wave Instrument, Low Frequency Waveform Receiver, ~0.01 sec resolution fields - D. Gurnett (U. Iowa) Polar Plasma Wave Instrument, Low-rate High Frequency Waveform Receiver, 16K (6-channel, ~0.00003 sec resolution) fields - D. Gurnett (U. Iowa) Polar Plasma Wave Instrument, MCA, ~1.3 sec fields - D. Gurnett (U. Iowa) Polar Plasma Wave Instrument, Step Frequency Receivers A & B, ~2 sec resolution fields - D. Gurnett (U. Iowa)
-
Electron Cyclotron Frequency, scalar
-
Proton Cyclotron Frequency, scalar
-
Oxygen Cyclotron Frequency, scalar
-
Magnetic Latitude, scalar
-
Magnetic Local Time, scalar
-
McIlwain Parameter, scalar
-
Geocentric Radial Distance, scalar
-
Avg. Elec. Field at 160 freq., 25-800000 Hz (SFR A)
-
Avg. Mag. Field at 160 freq., 25-800000 Hz (SFR A)
-
Avg. Elec. Field at 160 freq., 25-800000 Hz (SFR B)
-
Avg. Mag. Field at 160 freq., 25-800000 Hz (SFR B)
-
Pk. Elec. Field at 160 freq., 25-800000 Hz (SFR A)
-
Pk. Mag. Field at 160 freq., 25-800000 Hz (SFR A)
-
Pk. Elec. Field at 160 freq., 25-800000 Hz (SFR B)
-
Pk. Mag. Field at 160 freq., 25-800000 Hz (SFR B)
-
Instrument Mode (SFR) 0=Log, 1=Lin, 2=Mixed
-
Antenna (SFRA) 0 = Eu, 1 = Ez, 2 = L, 3 = Bz
-
Antenna (SFRB) 0 = Eu 1 = Ev 2 = Ez 3 = L
-
Time axis label: Magnetic Latitude, scalar
-
Time axis label: Magnetic Local Time, scalar
-
Time axis label: McIlwain Parameter, scalar
-
Time axis label: Geocentric Radial Distance, scalar
-
Time, time between WBR points
-
Sample rate: the rate at which the data is telemetered to the ground.
-
Filter Mode: 0-2 = 90 kHz, 3 = 1-3 kHz, 4 = 20 kHz, 5 = 3-6 kHz, 6 = 10-16 kHz, 7 = 10 kHz
-
Data_Mode (8-bit, 4-bit, or 1-bit compression)
-
WBR Antenna (0=Eu, 1=Ev, 2=Loop, 3=Bu)
-
Gain for WBR values 1-996 of 1992 or 1-1992 of 3984
-
Gain for WBR values 997-1992 of 1992 or 1993-3984 of 3984
-
Frequency Offset (0 kHz, 125 kHz, 250 kHz, 500 kHz)
-
Data Quality: 0 = OK, 1 = clipped or questionable
-
WBR Electric Field (mV/M)
-
Time, time between HFWR points in this snapshot.
-
Number of points that this snapshot contains in each Channel.
-
Number of FFTs of size 1024 that were processed for this snapshot
-
Channel 2 Gain (HFWR)
-
Channel 3 Gain (HFWR)
-
HFWR Elec. Ant. Eu
-
HFWR Elec. Ant. Ev+
-
HFWR Elec. Ant. Ev-
-
HFWR Mag. Ant. Bu
-
HFWR Mag. Ant. Bv
-
HFWR Mag. Ant. Bz
-
Data Q Eu: 0 = OK, 1 = clipped or questionable
-
Data Q Ev+: 0 = OK, 1 = clipped or questionable
-
Data Q Ev-: 0 = OK, 1 = clipped or questionable
-
Data Q Bu: 0 = OK, 1 = clipped or questionable
-
Data Q Bv: 0 = OK, 1 = clipped or questionable
-
Data Q Bz: 0 = OK, 1 = clipped or questionable
-
DATA_QUALITY 0 = OK, 1 = poor
-
HFWR 16 kHz Elec Field Antenna Eu
-
HFWR 16 kHz Elec Field Antenna Ev+
-
HFWR 16 kHz Elec Field Antenna Ev-
-
HFWR 16 kHz Mag Field Antenna Bu
-
HFWR 16 kHz Mag Field Antenna Bv
-
HFWR 16 kHz Mag Field Antenna Bz
-
Channel 1 Gain (HFWR 16 kHz)
-
Channel 2 Gain (HFWR 16 kHz)
-
Channel 3 Gain (HFWR 16 kHz)
-
M Gain (HFWR 16 kHz)
-
DATA_QUALITY 0 = OK, 1 = poor
-
HFWR 2 kHz Elec Field Antenna Ex (perp and outward in Local-Field-Aligned/LFA coords)
-
HFWR 2 kHz Elec Field Antenna Ey (perp and eastward in Local-Field-Aligned/LFA coords)
-
HFWR 2 kHz Elec Field Antenna Ez (parallel in Local-Field-Aligned/LFA coords)
-
HFWR 2 kHz Mag Field Antenna Bx (perp and outward in Local-Field-Aligned/LFA coords)
-
HFWR 2 kHz Mag Field Antenna By (perp and eastward in Local-Field-Aligned/LFA coords)
-
HFWR 2 kHz Mag Field Antenna Bz (parallel in Local-Field-Aligned/LFA coords)
-
Channel 1 Gain (HFWR 2 kHz, ~2 sec res)
-
Channel 2 Gain (HFWR 2 kHz, ~2 sec res)
-
Channel 3 Gain (HFWR 2 kHz, ~2 sec res)
-
M Gain (HFWR 2 kHz, ~2 sec res)
-
Channel 1 Gain (HFWR)
-
Channel 2 Gain (HFWR)
-
Channel 3 Gain (HFWR)
-
M Gain (HFWR)
-
[NO LIST] HFWR Elec Field Antenna Ex (perp and outward in Local-Field Aligned/LFA coords)
-
[NO LIST] HFWR Elec Field Antenna Ey (perp and eastward in Local-Field Aligned/LFA coords)
-
[NO LIST] HFWR Elec Field Antenna Ez (parallel in Local-Field Aligned/LFA coords)
-
[NO LIST] HFWR Mag Field Antenna Bx (perp and outward in Local-Field Aligned/LFA coords)
-
[NO LIST] HFWR Mag Field Antenna By (perp and eastward in Local-Field Aligned/LFA coords)
-
[NO LIST] HFWR Mag Field Antenna Bz (parallel in Local-Field Aligned/LFA coords)
-
[NO LIST] Data Quality for Ex components(0 = OK, 1 = clipped or questionable)
-
[NO LIST] Data Quality for Ey components(0 = OK, 1 = clipped or questionable)
-
[NO LIST] Data Quality for Ez components(0 = OK, 1 = clipped or questionable)
-
[NO LIST] Data Quality for Bx components(0 = OK, 1 = clipped or questionable)
-
[NO LIST] Data Quality for By components(0 = OK, 1 = clipped or questionable)
-
[NO LIST] Data Quality for Bz components(0 = OK, 1 = clipped or questionable)
-
[TEST-DO NOT USE] Ex Spectrogram from 512-element FFT
-
[TEST-DO NOT USE] Ey Spectrogram from 512-element FFT
-
[TEST-DO NOT USE] Ez Spectrogram from 512-element FFT
-
[TEST-DO NOT USE] Bx Spectrogram from 512-element FFT
-
[TEST-DO NOT USE] By Spectrogram from 512-element FFT
-
[TEST-DO NOT USE] Bz Spectrogram from 512-element FFT
-
Data Quality 0 = OK, 1 = poor
-
LFWR Elec. Field, Antenna Ex (perp & outward in Local-Field-Aligned/LFA coords)
-
LFWR Elec. Field, Antenna Ey (perp & eastward in Local-Field-Aligned/LFA coords)
-
LFWR Elec. Field, Antenna Ez (parallel in Local-Field-Aligned/LFA coords)
-
LFWR Mag. Field, Antenna Bx (perp & outward in Local-Field-Aligned/LFA coords)
-
LFWR Mag. Field, Antenna By (perp & eastward in Local-Field-Aligned/LFA coords)
-
LFWR Mag. Field, Antenna Bz (parallel in Local-Field-Aligned/LFA coords)
-
DATA_QUALITY (0 = OK, 1 = poor)
-
HFWR 16 kHz Elec Field, Antenna Ex (perp and outward in Local-Field-Aligned/LFA coords)
-
HFWR 16 kHz Elec Field, Antenna Ey (perp and eastward in Local-Field-Aligned/LFA coords)
-
HFWR 16 kHz Elec Field, Antenna Ez (parallel in Local-Field-Aligned/LFA coords)
-
HFWR 16 kHz Mag. Field, Antenna Bx (perp and outward in Local-Field-Aligned/LFA coords)
-
HFWR 16 kHz Mag. Field, Antenna By (perp and eastward in Local-Field-Aligned/LFA coords)
-
HFWR 16 kHz Mag. Field, Antenna Bz (parallel in Local-Field-Aligned/LFA coords)
-
HFWR Channel 1 (Ex) Gain (~2 sec res)
-
HFWR Channel 2 (Ey) Gain (~2 sec res)
-
HFWR Channel 3 (Ez) Gain (~2 sec res)
-
HFWR B Gain (all components, ~2 sec res)
-
Electron Cyclotron Frequency, scalar
-
Antenna (MCAE) 0 = Eu, 1 = Ev, 2 = Ez
-
Antenna (MCAB) 1 = Bu, 2 = Bv, 3 = Bz
-
Elec. Field at 20 freq., 5.62-311000 Hz (MCA E)
-
Mag. Field at 14 freq., 5.62-10000 Hz (MCA B)
-
Antenna (SFRA) 0=Eu, 1=Ez, 2=L, 3=Bz
-
Antenna (SFRB) 0=Eu, 1=Ev, 2=Ez, 3=L
-
SFR Mode (0 = Log, 1 = Linear)
-
Elec. Field at 64 freq., 104069.50-807814.25 Hz (SFR5 A)
-
Elec. Field at 64 freq., 13008.69-100976.78 Hz (SFR4 A)
-
Elec. Field at 32 freq., 1659.58-12622.10 Hz (SFR3 A)
-
Elec. Field at 32 freq., 207.45-1577.76 Hz (SFR2 A)
-
Elec. Field at 32 freq., 26.77-192.86 Hz (SFR1 A)
-
Mag. Field at 64 freq., 104069.50-807814.25 Hz (SFR5 B)
-
Mag. Field at 64 freq., 13008.69-100976.78 Hz (SFR4 B)
-
Mag. Field at 32 freq., 1659.58-12622.10 Hz (SFR3 B)
-
Mag. Field at 32 freq., 207.45-1577.76 Hz (SFR2 B)
-
Mag. Field at 32 freq., 26.77-192.86 Hz (SFR1 B)
-
Phase Angle at 64 freq., 104069.50-807814.25 Hz (SFR5 Phase)
-
Phase Angle at 64 freq., 13008.69-100976.78 Hz (SFR4 Phase)
-
Phase Angle at 32 freq., 1659.58-12622.10 Hz (SFR3 Phase)
-
Phase Angle at 32 freq., 207.45-1577.76 Hz (SFR2 Phase)
-
Phase Angle at 32 freq., 26.77-192.86 Hz (SFR1 Phase)
-
Correlation at 64 freq., 104069.50-807814.25 Hz (SFR4 Corr)
-
Correlation at 64 freq., 13008.69-100976.78 Hz (SFR4 Corr)
-
Correlation at 32 freq., 1659.58-12622.10 Hz (SFR3 Corr)
-
Correlation at 32 freq., 207.45-1577.76 Hz (SFR2 Corr)
-
Correlation at 32 freq., 26.77-192.86 Hz (SFR1 Corr)
-
Electron Cyclotron Frequency Fce
-
Upper Hybrid Resonance Frequency fUHR
-
Electron Number Density Ne
-
Polar TIDE H+,O+,He+ High Time Resolution Data (before 10/01/96) - Thomas E. Moore (Goddard Space Flight Center) Polar TIDE Total Ion High Time Resolution Data (after 12/7/96) - Thomas E. Moore (Goddard Space Flight Center)
-
H+ Ion density, only available before 01-Oct-1996.
-
H+ Ion Plasma Velocity, Field Aligned, available before 01-Oct-1996
-
H+ Ion Temperature, Parallel and Perendicular to the Magnetic Field, available before 01-Oct-1996.
-
H+ Energy Spectrogram. Only available before 01-Oct-1996.
-
H+ Spin Angle Spectrogram. Only available before 01-Oct-1996.
-
H+ Polar Angle Spectrogram. Only available before 01-Oct-1996.
-
O+ Ion Density. Only available before 01-Oct-1996.
-
O+ Ion Plasma Velocity, Field Aligned, available before 01-Oct-1996
-
O+ Ion Temperature, Parallel and Perendicular to the Magnetic Field, available before 01-Oct-1996.
-
O+ Energy Spectrogram. Only available before 01-Oct-1996.
-
O+ Spin Angle Spectrogram. Only available before 01-Oct-1996.
-
O+ Polar Angle Spectrogram. Only available before 01-Oct-1996.
-
He+ Ion Density. Only available before 01-Oct-1996.
-
He+ Ion Plasma Velocity, Field Aligned, available before 01-Oct-1996
-
He+ Ion Temperature, Parallel and Perendicular to Magnetic Field, available before 01-Oct-1996.
-
He+ Energy Spectrogram, only available before 01-Oct-1996.
-
He+ Spin Angle Spectrogram. Only available before 01-Oct-1996.
-
He+ Polar Angle Spectrogram. Only available before 01-Oct-1996.
-
TIDE Instrument Status (0-off,1-on,2-standby,3-mirrors stepped)
-
PSI Instrument Status (0-off,1-on,2-standby)
-
Spacecraft Potential (from EFI K0 or a constant value)
-
Spacecraft Ram Spin Angle
-
Spacecraft Ram Polar Angle
-
Magnetic Field Azimuth
-
Magnetic Field Elevation
-
Total Ion Density, available after 07-Dec-1996.
-
Total Ion Plasma Velocity, Field Aligned, available after 07-Dec-1996
-
Total Ion Temperature, Parallel and Perpendicular to the Magnetic Field. Available after 07-Dec-1996
-
Total Ion Energy Spectrogram. Available after 07-Dec-1996.
-
Total Ion Spin Angle Spectrogram. Available after 07-Dec-1996.
-
TIDE Instrument Status (0-off,1-on,2-standby,3-mirrors stepped)
-
PSI Instrument Status (0-off,1-on,2-standby)
-
Spacecraft Potential (from EFI K0 or a constant value)
-
Spacecraft Ram Spin Angle
-
Spacecraft Ram Polar Angle
-
Magnetic Field Azimuth
-
Magnetic Field Elevation
-
Polar Toroidal Imaging Mass-Angle Spectrograph, High Time Resolution data - W.K. Peterson (Lockheed Martin) Polar Toroidal Imaging Mass-Angle Spectrograph, Supplemental Key Parameters - W.K. Peterson (LASP/University of Colorado)
-
Polar UVI Level-1 Full Resolution Imager Data - G. Parks (U. Washington) Polar Ultraviolet Imager, High Res. - G. Parks (U. Washington) Polar Ultraviolet Imager, High Res. - G. Parks (U. Washington) Polar Ultraviolet Imager, Key Parameters - G. Parks (U. Washington)
-
UVI FUV Image, CCD pixel values (small format, no grid, CDAWeb times +-6 sec) - USE NOISE REJECTION
-
UVI FUV Image, CCD pixel values (large format, no grid, CDAWeb times +-6 sec) - USE NOISE REJECTION
-
UVI FUV Image, CCD pixel values (movie, no grid, CDAWeb times +-6 sec) - USE NOISE REJECTION
-
System ID
-
UVI Filter (0=HOME 1=1304 2=1356 3=LBHS 4=LBHL 5=SOLR 6=SHUTTER 7=UNK)
-
Aperture door position (0=UNK 1=FULLEX 2=OPEN 3=CLOSED)
-
Gain step
-
Instrument operating mode (0=UNK 1=NORMAL 2=STAR 3=IDLE 64-67=SYNC)
-
Actual integration period (# major frames)
-
Observation sequence number
-
MPEG canned images
-
MPEG canned images
-
Quality indicator (also quickly shows times when images are available)
-
Far UV Images (kRay), small format display with click-expand (~10 min res)
-
--> (USE SHORT TIME SPANS) Large format display with click-expand, no geographic registration
-
--> (USE SHORT TIME SPANS) With geographic map overlay
-
--> [DO NOT USE: UNDER-DEVELOPMENT] Test Display
-
--> (USE SHORT TIME SPANS) Azimuthal projection to geographic (with fixed sun orientation)
-
--> (USE SHORT TIME SPANS) Azimuthal projection to magnetic LT and invariant lat, using eccentric dipole model
-
--> (USE SHORT TIME SPANS) Movie display of images, no geographic registration
-
--> (USE SHORT TIME SPANS) Movie, with geographic map overlay
-
--> (USE SHORT TIME SPANS) Movie, azimuthal projection to geographic (with fixed sun orientation)
-
--> (USE SHORT TIME SPAN) Movie, azimuthal projection to magnetic LT and invariant lat, using eccentric dipole model
-
Spacecraft Position in GCI, 3 comp.
-
Spacecraft Attitude in GCI, 3 comp.
-
Sun Position in GCI, 3 comp.
-
Unit vector along field of view.
-
Offset angle of despun platform from nadir.
-
Filter selection.
-
Polar Visible Imaging System Earth Camera Key Parameter - Louis A. Frank (The University of Iowa) Polar Visible Imaging System Key Parameters - Louis A. Frank (The University of Iowa) Polar Visible Imaging System, Earth Camera Images, processed - Louis A. Frank (The University of Iowa)
-
Presumed altitude of emissions (also quickly shows times when images are available)
-
Earth Camera UV Images (quasi-log cnts), small format display with click-expand (~4 min. res.)
-
--> Larger format display with click-expand, no geographic registration
-
--> (USE SHORT TIME SPANS) With geographic grid overlay
-
--> [DO NOT USE: UNDER-DEVELOPMENT] Test Display
-
--> (USE SHORT TIME SPANS) Azimuthal projection to geographic (fixed sun orientation)
-
--> (USE SHORT TIME SPANS) Azimuthal projection to magnetic LT and invariant lat
-
--> (USE SHORT TIME SPANS) Movie display of images, no geographic registration
-
--> (USE SHORT TIME SPANS) Movie, with geographic grid overlay
-
--> (USE SHORT TIME SPANS) Movie, azimuthal projection to geographic (fixed sun orientation)
-
--> (USE SHORT TIME SPANS) Movie, azimuthal projection to magnetic LT and invariant lat
-
Earth Camera UV Images (kRay), small format display with click-expand (~4 min. res.)
-
--> Larger format display with click-expand, no geographic registration
-
--> (USE SHORT TIME SPANS) With geographic grid overlay
-
--> (USE SHORT TIME SPANS) Azimuthal projection to geographic (fixed sun orientation)
-
--> (USE SHORT TIME SPANS) Azimuthal projection to magnetic LT and invariant lat
-
--> (USE SHORT TIME SPANS) Movie display of images, no geographic registration
-
--> (USE SHORT TIME SPANS) Movie, with geographic grid overlay
-
--> (USE SHORT TIME SPANS) Movie, azimuthal projection to geographic (fixed sun orientation)
-
--> (USE SHORT TIME SPANS) Movie, azimuthal projection to magnetic LT and invariant lat
-
Platform pointing angle from nadir
-
GCI position vector of Polar spacecraft in kilometers.
-
GCI velocity vector of Polar spacecraft in km/sec.
-
GCI spin axis unit vector of Polar spacecraft.
-
Image header bytes
-
Presumed emission altitude (also quickly shows time periods when images are available)
-
Visible Image (quasi-log cnts), small format display with click-expand (~4 min. res.)
-
--> Larger format display with click-expand, no geographic registration
-
--> (USE SHORT TIME SPANS) With geographic map overlay
-
--> [DO NOT USE: UNDER-DEVELOPMENT] Test Display
-
--> (USE SHORT TIME SPANS) Azimuthal projection to geographic (fixed sun orientation)
-
--> (USE SHORT TIME SPANS) Azimuthal projection to magnetic LT and invariant lat
-
--> (USE SHORT TIME SPANS) Movie display of images, no geographic registration
-
--> (USE SHORT TIME SPANS) Movie, with geographic grid overlay
-
--> (USE SHORT TIME SPANS) Movie, azimuthal projection to geographic (fixed sun orientation)
-
--> (USE SHORT TIME SPANS) Movie, azimuthal projection to magnetic LT and invariant lat
-
Visible Image (kRay), small format display with click-expand (~4 min. res.)
-
--> Larger format display with click-expand, no geographic registration
-
--> (USE SHORT TIME SPANS) With geographic grid overlay
-
--> (USE SHORT TIME SPANS) Azimuthal projection to geographic (fixed sun orientation)
-
--> (USE SHORT TIME SPANS) Azimuthal projection to magnetic LT and invariant lat
-
--> (USE SHORT TIME SPANS) Movie display of images, no geographic registration
-
--> (USE SHORT TIME SPANS) Movie, with geographic grid overlay
-
--> (USE SHORT TIME SPANS) Movie, azimuthal projection to geographic (fixed sun orientation)
-
--> (USE SHORT TIME SPANS) Movie, azimuthal projection to magnetic LT and invariant lat
-
Filter number and peak wavelength in Angstroms)
-
Platform pointing angle from nadir
-
GCI position vector of Polar spacecraft in kilometers.
-
GCI velocity vector of Polar spacecraft in km/sec.
-
GCI spin axis unit vector of Polar spacecraft.
-
Data quality flags
-
Presumed emission altitude (also quickly shows times when images are available).
-
Earth Camera UV Images (quasi-log cnts), small format display with click-expand (~1 min. res.)
-
--> Larger format display with click-expand, no geographic registration.
-
--> (USE SHORT TIME SPANS) With geographic map overlay
-
--> [DO NOT USE: UNDER-DEVELOPMENT] Test Display
-
--> (USE SHORT TIME SPANS) Azimuthal projection to geographic (fixed sun orientation)
-
--> (USE SHORT TIME SPANS) Azimuthal projection to magnetic LT and invariant lat
-
(USE SHORT TIME SPANS) Movie display of images, no geographic registration.
-
--> (USE SHORT TIME SPANS) With geographic grid overlay
-
--> (USE SHORT TIME SPANS) Azimuthal projection to geographic (fixed sun orientation)
-
--> (USE SHORT TIME SPANS) Azimuthal projection to magnetic LT and invariant lat
-
Earth Camera UV Images (kRay), small format display with click-expand (~1 min. res.)
-
--> Larger format display with click-expand, no geographic registration.
-
--> (USE SHORT TIME SPANS) With geographic grid overlay
-
--> (USE SHORT TIME SPANS) Azimuthal projection to geographic (fixed sun orientation)
-
--> (USE SHORT TIME SPANS) Azimuthal projection to magnetic LT and invariant lat
-
(USE SHORT TIME SPANS) Movie display of images, no geographic registration.
-
--> (USE SHORT TIME SPANS) With geographic grid overlay
-
--> (USE SHORT TIME SPANS) Azimuthal projection to geographic (fixed sun orientation)
-
--> (USE SHORT TIME SPANS) Azimuthal projection to magnetic LT and invariant lat
-
Platform pointing angle from nadir
-
GCI position vector of Polar spacecraft in kilometers.
-
GCI velocity vector of Polar spacecraft in km/sec.
-
GCI spin axis unit vector of Polar spacecraft.
-
Image header bytes
-
H+, O+, He+ and He++ upflowing fluxes, from Polar TIMAS - W.K. Peterson (LASP/University of Colorado)
-
IPEI
-
ROCSAT-1(FORMOSAT-1)/IPEI, Key Parameters - Shin-Yi Su (Institute of Space Science, National Central University, Taiwan, R.O.C.)
-
30F POF
-
30-s averaged fluxes: 4 Instruments - Glenn Mason (JHU/APL )
-
geographic spherical coords: radial distance,longitude,latitude
-
geographic altitude. Altitude aboveEarth's surface (km)
-
GEI X,Y,Z coordinates (km);X-Y in equatorial plane;X to vernal equinox
-
GEI velocity. VX,VY,VZ (km/s)
-
exospheric temperature, Kelvinused in orbit propagation code
-
drag factor: used in orbit propagation; drag coef=(1+drag)*2.2
-
geomagnetic activity index, Kp
-
eccentric dipole position:Distance (km),Long,Lat
-
local time in ECD. ECcentric Dipole hh.hh
-
L-shell parameter (MacIllwain's)
-
model B-field magnitude, Gauss
-
local time at magnetic equator (hours)
-
invariant latitude, deg. Dipole.
-
particle pitch angle,deg.
-
losscome 1: Pitch half-angle of cone withparticles that mirror at <100 km,same hemisphere
-
losscone 2:Pitch-angle cone containing particles mirroring at <100 km,at either(other ??) hemisphere
-
Magnetic field components in GEI: Bx,By, Bz, Gauss
-
Mag vector, geographic: magnetic components,radial,south (theta), and east (phi)
-
dipole moment vector components in geographic Cartesians
-
dipole location vector: displacement,km
-
magnetic declination, measured eastward of geographic north
-
mag dip angle: vector's deviation from horizontal plane, deg
-
mag radial distance of ECD B-field line top point,km; akin to dipole L.
-
IGRF inv_mag latitude, deg; akin to dipole Inv_Lat.
-
mirror location: alt,long,lat
-
magnetic equator: B-field magnitude,alt.,geogr_long. and lat. at mag_equator pass
-
parameters at N100 mirror: B-magnitude,alt.,geogr_long,lat at north '100 km' level of field line
-
parameters at S100 mirror: B-magnitude,alt., geogr_long,lat. at south '100 km' point on B-line
-
vertical cutoff nominal rigidity (GV) at 20 km altitude
-
zenith-bore angle: angle between zenith and S/C z-axis,i.e, instrument bore. axis
-
azimuth: angle of s/c z-axis projected on horizontal plane;0=east,90=north
-
ACS control mode
-
Sun-B angle: cos of angle between sun line and local magnetic field vector
-
Z>2 dif fluxes, 9 channels (0.5-220 MeV/nu)from LICA,HILT,and MAST detectors
-
He Dif Fluxes, 4 channels (0.5-38 MeV/nu): from LICA, HILT, and MAST detectors
-
H+ (mainly) Dif Fluxes, 2 channels: from MAST and PET detectors
-
Electr Dif Fluxes, 2 channels (1.5-14 MeV)from PET instrument.
-
Integral Flux, E- or H from LICA.E>0.6 MeV electrons and/or E>0.8 MeV protons
-
Sigma:Z>2 dif fluxes, 9 channels (0.5-220 MeV/nu)from LICA,HILT,and MAST detectors
-
Sigma: He Dif Fluxes, 4 channels;(0.5-38 MeV/nu):from LICA, HILT, and MAST detectors
-
Sigma: H+ (mainly) Dif Fluxes, 2 channels:from MAST and PET detectors
-
Sigma: Electr Dif Fluxes, 2 channels;(2-16 MeV) from PET instrument.
-
Sigma: Integral Flux, E- or H from LICA.E>0.6 MeV electrons and/orE>0.8 MeV protons
-
SAMPEX POLARCAP Averages: 4 Instruments - G.MASON (JHU/APL )
-
4 LICA quality/saturation flags.
-
6 HILT quality flags.
-
3 MAST quality flags
-
3 PET quality flag
-
Z>2 dif fluxes, 9 channels (0.5-220 MeV/nu)from LICA, HILT,and MAST detectors
-
He Dif Fluxes, 4 channels (0.5-38 MeV/nu); from LICA, HILT, and MAST detectors
-
H+ (mainly) Dif Fluxes, 2 channels:from MAST and PET detectors
-
Electr Dif Fluxes, 2 channels (1.5-14 MeV)from PET instrument.
-
Integral Flux, E- or H from LICA.E>0.6 MeV electrons and/or E>0.8 MeV protons
-
Sigma:Z>2 dif fluxes, 9 channels (0.5-MeV/nu)from LICA,HILT,and MAST detectors
-
Sigma: He Dif Fluxes, 4 channels;(0.5-38 MeV/nu):from LICA, HILT, and MAST detectors
-
Sigma: H+ (mainly) Dif Fluxes, 2 channels:from MAST and PET detectors
-
Sigma: Electr Dif Fluxes, 2 channels;(1.5-14 MeV) from PET instrument.
-
Sigma: Integral Flux, E- or H from LICA.E>0.6 MeV electrons and/orE>0.8 MeV protons
-
GEO MAG
-
NO density, 100 - 150 km, geographic coordinates - Charles A. Barth (LASP/CU)
-
NO density, 100 - 150 km, geomagnetic coordinates - Charles A. Barth (LASP/CU)
-
CEL CST ERN
-
SOHO Charge, Element and Isotope Analysis System, Key Parameters - Peter Bochsler (Physikalisches Institut, )
-
SOHO ComprehensiveSuprathermal and EnergeticParticle Analyser - Horst Kunow (University of Kiel, Germany)
-
SOHO Energetic and Relativistic Nuclei and Electron experiment, Key Parameters - J Torsti (University of Turku)
-
IMPACT IMPACT_MAG MAG_PLASMA PLA PLAS SEPT>STEREO-A IMPACT/SEPT SEPT>STEREO-B IMPACT/SEPT SIT>STEREO-A IMPACT/SIT SIT>STEREO-B IMPACT/SIT STEREO-B IMPACT/SWEA SWAVES let>STEREO-A IMPACT/LET let>STEREO-B IMPACT/LET ste>STEREO-A IMPACT/STE ste>STEREO-B IMPACT/STE swea_disb>STEREO-A IMPACT/SWEA swea_disb>STEREO-B IMPACT/SWEA swea_dist>STEREO-A IMPACT/SWEA
-
STEREO Ahead IMPACT Beacon Data - J. Luhmann (UCB/SSL) STEREO Behind IMPACT Beacon Data - J. Luhmann (UCB/SSL)
-
Magnetic field vector in STEREO-A Heliocentric Radial Tangential Normal coordinates
-
Electron spectrum from STE-D (downstream)
-
SEP/HET Livetime
-
SEP/LET Livetime
-
LET Number of Front-end Triggers
-
LET Number of events with hazard flag
-
LET Number of accepted events
-
LET Code OK. Internal code check, 1=good, 0=bad
-
LET Heater Duty Cycle
-
LET Leakage Current Balance, 1=ok, 0=bad
-
LET Dynamic Thresholding State, 0=normal, 1,2,3=higher threshold setting
-
LET Minute Counter - rolls over at 60
-
SEPT Status Code
-
HET Electron Flux between 0.7 and 4 MeV
-
HET Proton Flux measured in 3 energy channels
-
HET He Flux measured in 3 energy channels
-
HET CNO Flux in 2 energy bins
-
HET Fe Flux between 52 and 74 MeV/nuc
-
SIT He Flux in 4 energy bins
-
SIT CNO Flux in 4 energy bins
-
SIT Fe Flux in 4 energy bins
-
LET Proton Flux in 4 bins (middle 2 have same energy, but different angular coverage)
-
LET 4He Flux in 5 bins. Bins 1,2 and 3,4 have same energy coverage but different angular coverage
-
LET 3He Flux in 2 energies (full 260 deg coverage)
-
LET CNO Flux in 3 energy bins
-
LET Fe Flux in 4 energy bins
-
SEPT Electron Flux (see labels for binning)
-
SEPT Ion Flux (see labels for binning)
-
HET Electron Counts (0.7 - 4 MeV)
-
HET Proton Counts (in 3 energy bins)
-
HET CNO Counts (in 2 energy bins)
-
HET Fe Cnts (52 - 74 MeV/nuc)
-
SIT He Counts
-
SIT CNO Counts
-
SIT Fe Counts
-
LET Proton Counts
-
LET 4He Counts
-
LET 3He Counts
-
LET CNO Counts
-
LET Fe Counts
-
SEPT Electron Counts
-
SEPT Ion Counts
-
Spacecraft Status code
-
Instrument Activity Code
-
SWEA Mode ID
-
STE Mode ID
-
MAG HKP Status Code
-
HET He Counts
-
Summary Flux SEPT Electrons from 0.035 to 0.065 MeV summed in all directions
-
Summary Flux HET Electrons from 0.7 to 4 MeV
-
Summary Flux SEPT Ions from 0.137 to 0.623 MeV
-
Summary Flux SEPT Ions from 0.623 to 2.22 MeV
-
Summary Flux LET Protons from 2.2 to 12 MeV
-
Summary Flux HET Protons from 13 to 100 MeV
-
Summary Flux SIT Helium from 0.12 to 1.08 Mev/nuc
-
Summary Flux SIT CNO from 0.12 to 1.08 MeV/nuc
-
Summary Flux SIT Fe from 0.12 to 1.08 MeV/nuc
-
Summary Flux LET Helium from 4 to 12 MeV/nuc
-
Summary Flux LET CNO from 4 to 12 MeV/nuc
-
Summary Flux LET Fe from 4 to 12 MeV/nuc
-
Summary Counts SEPT Electrons from 0.035 to 0.065 MeV
-
Summary Counts HET Electrons from 0.7 to 4 MeV
-
Summary Counts SEPT Ions from 0.137 to 0.623 MeV
-
Summary Counts SEPT Ions from 0.623 to 2.22 MeV
-
Summary Counts LET Protons from 2.2 to 12 MeV
-
Summary Counts HET Protons from 13 to 100 MeV
-
Summary Counts SIT Helium from 0.12 to 1.08 MeV/nuc
-
Summary Counts SIT CNO from 0.12 to 1.08 MeV/nuc
-
Summary Counts SIT Fe from 0.12 to 1.08 MeV/nuc
-
Summary Counts LET Helium from 4 to 12 MeV/nuc
-
Summary Counts LET CNO from 4 to 12 MeV/nuc
-
Summary Counts LET Fe from 4 to 12 MeV/nuc
-
Magnetic field vector in STEREO-B Heliocentric Radial Tangential Normal coordinates
-
Electron spectrum from STE-D (downstream)
-
SEP/HET Livetime
-
SEP/LET Livetime
-
LET Number of Front-end Triggers
-
LET Number of events with hazard flag
-
LET Number of accepted events
-
LET Code OK. Internal code check, 1=good, 0=bad
-
LET Heater Duty Cycle
-
LET Leakage Current Balance, 1=ok, 0=bad
-
LET Dynamic Thresholding State, 0=normal, 1,2,3=higher threshold setting
-
LET Minute Counter - rolls over at 60
-
SEPT Status Code
-
HET Electron Flux between 0.7 and 4 MeV
-
HET Proton Flux measured in 3 energy channels
-
HET He Flux measured in 3 energy channels
-
HET CNO Flux in 2 energy bins
-
HET Fe Flux between 52 and 74 MeV/nuc
-
SIT He Flux in 4 energy bins
-
SIT CNO Flux in 4 energy bins
-
SIT Fe Flux in 4 energy bins
-
LET Proton Flux in 4 bins (middle 2 have same energy, but different angular coverage)
-
LET 4He Flux in 5 bins. Bins 1,2 and 3,4 have same energy coverage but different angular coverage
-
LET 3He Flux in 2 energies (full 260 deg coverage)
-
LET CNO Flux in 3 energy bins
-
LET Fe Flux in 4 energy bins
-
SEPT Electron Flux (see labels for binning)
-
SEPT Ion Flux (see labels for binning)
-
HET Electron Counts (0.7 - 4 MeV)
-
HET Proton Counts (in 3 energy bins)
-
HET CNO Counts (in 2 energy bins)
-
HET Fe Cnts (52 - 74 MeV/nuc)
-
SIT He Counts
-
SIT CNO Counts
-
SIT Fe Counts
-
LET Proton Counts
-
LET 4He Counts
-
LET 3He Counts
-
LET CNO Counts
-
LET Fe Counts
-
SEPT Electron Counts
-
SEPT Ion Counts
-
Spacecraft Status code
-
Instrument Activity Code
-
SWEA Mode ID
-
STE Mode ID
-
MAG HKP Status Code
-
HET He Counts
-
Summary Flux SEPT Electrons from 0.035 to 0.065 MeV summed in all directions
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Summary Flux HET Electrons from 0.7 to 4 MeV
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Summary Flux SEPT Ions from 0.137 to 0.623 MeV
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Summary Flux SEPT Ions from 0.623 to 2.22 MeV
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Summary Flux LET Protons from 2.2 to 12 MeV
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Summary Flux HET Protons from 13 to 100 MeV
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Summary Flux SIT Helium from 0.12 to 1.08 Mev/nuc
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Summary Flux SIT CNO from 0.12 to 1.08 MeV/nuc
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Summary Flux SIT Fe from 0.12 to 1.08 MeV/nuc
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Summary Flux LET Helium from 4 to 12 MeV/nuc
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Summary Flux LET CNO from 4 to 12 MeV/nuc
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Summary Flux LET Fe from 4 to 12 MeV/nuc
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Summary Counts SEPT Electrons from 0.035 to 0.065 MeV
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Summary Counts HET Electrons from 0.7 to 4 MeV
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Summary Counts SEPT Ions from 0.137 to 0.623 MeV
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Summary Counts SEPT Ions from 0.623 to 2.22 MeV
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Summary Counts LET Protons from 2.2 to 12 MeV
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Summary Counts HET Protons from 13 to 100 MeV
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Summary Counts SIT Helium from 0.12 to 1.08 MeV/nuc
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Summary Counts SIT CNO from 0.12 to 1.08 MeV/nuc
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Summary Counts SIT Fe from 0.12 to 1.08 MeV/nuc
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Summary Counts LET Helium from 4 to 12 MeV/nuc
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Summary Counts LET CNO from 4 to 12 MeV/nuc
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Summary Counts LET Fe from 4 to 12 MeV/nuc
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STEREO Ahead IMPACT/MAG Burst Mode (~0.03 sec) Magnetic Field Vectors (RTN) - J. Luhmann (UCB/SSL) STEREO Ahead IMPACT/MAG Burst Mode (~0.03 sec) Magnetic Field Vectors (SC) - J. Luhmann (UCB/SSL) STEREO Ahead IMPACT/MAG Magnetic Field Vectors (RTN) - J. Luhmann (UCB/SSL) STEREO Ahead IMPACT/MAG Magnetic Field Vectors (SC) - J. Luhmann (UCB/SSL) STEREO Behind IMPACT/MAG Burst Mode (~0.03 sec) Magnetic Field Vectors (SC) - J. Luhmann (UCB/SSL) STEREO Behind IMPACT/MAG Burst Mode (~0.03 sec) Magnetic Field Vectors - J. Luhmann (UCB/SSL) STEREO Behind IMPACT/MAG Magnetic Field Vectors (RTN) - J. Luhmann (UCB/SSL) STEREO Behind IMPACT/MAG Magnetic Field Vectors - J. Luhmann (UCB/SSL)
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Merged hourly magnetic field, plasma and ephermis data - Natasha Papitashvili (NASA/GSFC) Merged hourly magnetic field, plasma and ephermis data - Natasha Papitashvili (NASA/GSFC)
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STEREO/PLASTIC Level 2 - Dr. Antoinette Galvin (University of New Hampshire) STEREO/PLASTIC Level 2 - Dr. Antoinette Galvin (University of New Hampshire)
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STEREO/PLASTIC Level 2 - Dr. Antoinette Galvin (University of New Hampshire) STEREO/PLASTIC Level 2 - Dr. Antoinette Galvin (University of New Hampshire) STEREO/PLASTIC Level 2 - Dr. Antoinette Galvin (University of New Hampshire) STEREO/PLASTIC Level 2 - Dr. Antoinette Galvin (University of New Hampshire) STEREO/PLASTIC Level 2 - Dr. Antoinette Galvin (University of New Hampshire) STEREO/PLASTIC Level 2 - Dr. Antoinette Galvin (University of New Hampshire)
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STEREO Ahead IMPACT/SEPT Level 1 Data. - J. Luhmann (UCB/SSL)
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STEREO Behind IMPACT/SEPT Level 1 Data. - J. Luhmann (UCB/SSL)
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STEREO Ahead IMPACT/SIT Level 1 Data. - J. Luhmann (UCB/SSL)
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STEREO Behind IMPACT/SIT Level 1 Data. - J. Luhmann (UCB/SSL)
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STEREO Ahead IMPACT/SWEA 3D Distributions. - J. Luhmann (UCB/SSL)
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STEREO WAVES (SWAVES) Radio Intensity Spectra, both Ahead and Behind s/c - M. Kaiser (NASA/GSFC)
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STEREO Ahead IMPACT/LET Level 1 Data. - J. Luhmann (UCB/SSL)
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STEREO Behind IMPACT/LET Level 1 Data. - J. Luhmann (UCB/SSL)
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STEREO Ahead IMPACT/STE Spectra - J. Luhmann (UCB/SSL)
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STEREO Behind IMPACT/STE Spectra - J. Luhmann (UCB/SSL)
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STEREO Ahead IMPACT/SWEA 3D Burst Mode Distributions. - J. Luhmann (UCB/SSL)
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STEREO Behind IMPACT/SWEA 3D Burst Mode Distributions. - J. Luhmann (UCB/SSL)
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STEREO Ahead IMPACT/SWEA 3D Distributions. - J. Luhmann (UCB/SSL)
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AMD AMK AND ARCT ATHA ATU BETT BFE BJN BMLS BOU BRW BSL CCNV CHBG CIGO CMO CRVR DED DIK DMH DNB DOB DON DRBY EAGL EKAT FCC FHB FRD FRN FSIM FSMI FYKN FYTS GAKO GBAY GDH GHB GILL GJOA GUA HLMS HOMR HON HOP HOTS IGLO INUV JCK KAKO KAPU KAR KIAN KUUJ KUV L1 L2 LARG LETH LOYS LYR MCGR NAL NAQ NEW NOR NRD PANG PBK PG1 PG2 PGEO PINA PINE POKR PTRS R0 RANK RBAY REDR RMUS ROE ROTH RVK SCO SHU SIT SJG SKT SNAP SNKQ SOL SOR SSC STF SVS SWNO TDC THL TIK TPAS TRAP TRO TUC UKIA UMQ UPN WHIT YKC YKNF
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Higher latitude chain (Lat 69.6, Long 60.2), Ground-based Vector Magnetic Field at Amderma, Russia. 1 minute time resolution. - Oleg Troshichev (Department of Geophysics, Arctic and Antarctic Research Institute)
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Higher latitude chain (Lat 65.6, Long 322.4), Ground-based Vector Magnetic Field at Tasiilaq, Greenland, 60 sec, DTU network - C. Stolle & J. Matzka (DTU Space, Denmark)
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Higher latitude chain (Lat 69.3, Long 16.0), Ground-based Vector Magnetic Field at Andenes, Norway, 1 min, Norwegian auroral zone magnetometer network - T. L. Hansen (TGO, University of Tromso)
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Higher latitude chain (Lat 68.1, Long 214.4), Ground-based Vector Magnetic Field at Arctic Village, AK, 1.0 sec Level-2, GIMA network - V. Angelopoulos & H. Nielson (UCB and U Alaska, NASA NAS5-02099)
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Higher latitude chain (Lat 54.7, Long 246.7), Ground-based Vector Magnetic Field at Athabasca, Canada, 0.5 sec Level-2 - V. Angelopoulos & I. Mann (UCB & U Calgary respectively, NASA NAS5-02099)
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Higher latitude chain (Lat 67.9, Long 306.4), Ground-based Vector Magnetic Field at Attu, Greenland, 20 >sec, DMI network - Hans Gleisner (DMI, Denmark)
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Higher latitude chain (Lat 66.9, Long 208.5), Ground-based Vector Magnetic Field at Bettles, AK, 1.0 sec Level-2, GIMA network - V. Angelopoulos & H. Nielson (UCB & UAlaska, NASA NAS5-02099)
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Higher latitude chain (Lat 55.6, Long 11.7), Ground-based Vector Magnetic Field at Brofelde, Denmark, 1 min, DTU network - C. Stolle & J. Matzka (DTU Space, Denmark)
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Higher latitude chain (Lat 74.5, Long 19.0), Ground-based Vector Magnetic Field at Bjornoya, Norway, 1 min, Norwegian auroral zone magnetometer network - T. L. Hansen (TGO, University of Tromso)
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Lower latitude chain (Lat 46.2, Long 275.7), Ground-based Vector Magnetic Field at Bay Mills, MI, 0.5 sec, THEMIS GEONS network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
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Lower latitude chain (Lat 40.1, Long 254.8), Ground-based Vector Magnetic Field at Boulder, Colorado, 1 sec, USGS Network - Carol A. Finn (United States Geological Survey, Golden, CO )
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Lower latitude chain (Lat 71.3, Long 156.6), Ground-based Vector Magnetic Field at Barrow, Alaska, 1.0 sec, USGS network - Duff C. Stewart (USGS Denver)
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Lower latitude chain (Lat 30.4, Long 89.6), Ground-based Vector Magnetic Field at NASA , Stennis Space Center, 1 sec, USGS Network - Carol A. Finn (United States Geological Survey, Golden, CO)
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Lower latitude chain (Lat 39.2, Long 240.2), Ground-based Vector Magnetic Field at Carson City, NV, 0.5 sec, THEMIS GEONS network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
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Higher latitude chain (Lat 49.8, Long 285.6), Ground-based Vector Magnetic Field at Chibougamau, Canada, 0.5 sec, THEMIS GBO network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
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Higher latitude chain (Lat 64.9, Long 212.1), Ground-based Vector Magnetic Field at College, AK, 0.5 sec, THEMIS GBO network - V. Angelopoulos & H. Nielson (UCB & UAlaska, NASA NAS5-02099)
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Higher latitude chain (Lat 64.9, Long 147.9), Ground-based Vector Magnetic Field at Fairbanks, Alaska, College 1.0 sec time Resolution. - Carol A. Finn (United States Geological Survey, 1711 Illinois St, Golden, CO 80401-1865, USA)
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Higher latitude chain (Lat 70.5, Long 291.4), Ground-based Vector Magnetic Field at Clyde River, Nunavut, Canada, 0.5 sec, Magnetometer Array for Cusp and Cleft Studies (MACCS) - Erik S. Steinmetz (Augsburg College)
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Higher latitude chain (Lat 70.4, Long 148.8), Ground-based Vector Magnetic Field at Dead Horse, Alaska, 1.0 sec time Resolution. - Carol A. Finn (United States Geological Survey, 1711 Illinois St, Golden, CO 80401-1865, USA)
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Higher latitude chain (Lat 73.5, Long 80.7), Ground-based Vector Magnetic Field at Dikson, Russia. 1 minute time resolution. - Oleg Troshichev (Department of Geophysics, Arctic and Antarctic Research Institute)
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Higher latitude chain (Lat 76.8, Long 341.4), Ground-based Vector Magnetic Field at Danmarkshavn, Greenland, 20 sec, DMI network - Hans Gleisner (DMI, Denmark)
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Higher latitude chain (Lat 74.3, Long 339.8), Ground-based Vector Magnetic Field at Daneborg, Greenland, 20 sec, DMI network - Hans Gleisner (DMI, Denmark)
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Higher latitude chain (Lat 62.1, Long 9.1), Ground-based Vector Magnetic Field at Dombas, Norway, 1 min, Norwegian auroral zone magnetometer network - T. L. Hansen (TGO, University of Tromso)
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Higher latitude chain (Lat 66.1, Long 12.5), Ground-based Vector Magnetic Field at Donna, Norway, 1 min, Norwegian auroral zone magnetometer network - T. L. Hansen (TGO, University of Tromso)
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Lower latitude chain (Lat 45.0, Long 287.9), Ground-based Vector Magnetic Field at Derby, VT, 0.5 sec, THEMIS GEONS network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
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Higher latitude chain (Lat 64.8, Long 218.8), Ground-based Vector Magnetic Field at Eagle, AK, 0.5 sec, THEMIS GBO network - V. Angelopoulos & H. Nielson (UCB & UAlaska, NASA NAS5-02099)
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Higher latitude chain (Lat 64.7, Long 249.3), Ground-based Vector Magnetic Field at Ekati, Canada, 0.5 sec, THEMIS GBO network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
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Higher latitude chain (Lat 58.8, Long 265.9), Ground-based Vector Magnetic Field at Fort Churchill, Canada, 1.0 sec time Resolution. - David Calp (Geologilogicalal Survey of Canada Geomagnetic Laboratory 7 Observatory Crescent Ottawa, Ontario, Canada K1A 0Y3)
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Higher latitude chain (Lat 62.0, Long 310.3), Ground-based Vector Magnetic Field at Paamiut(Frederikshap), Greenland, 1 min, DTU network - C. Stolle & J. Matzka (DTU Space, Denmark)
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Lower latitude chain (Lat 38.2, Long 77.4), Ground-based Vector Magnetic Field at Corbin, VA, 1 sec, USGS Network - Carol A. Finn (United States Geological Survey, Golden, CO)
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Lower latitude chain (Lat 37.1, Long 119.7), Ground-based Vector Magnetic Field at Fresno, Californaia, 1 sec, USGS Network - Carol A. Finn (United States Geological Survey, Golden, CO)
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Higher latitude chain (Lat 61.8, Long 238.8), Ground-based Vector Magnetic Field at Fort Simpson, Canada, 0.5 sec Level-2 - V. Angelopoulos & C. I. Mann (UCB & U Alberta respectively, NASA NAS5-02099)
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Higher latitude chain (Lat 60.0, Long 248.2), Ground-based Vector Magnetic Field at Fort Smith, Canada, 0.5 sec Level-2 - V. Angelopoulos & I. Mann (UCB & U Alberta respectively, NASA NAS5-02099)
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Higher latitude chain (Lat 66.6, Long 214.8), Ground-based Vector Magnetic Field at Fort Yukon, AK, 0.5 sec, THEMIS GBO network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
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Lower latitude chain (Lat 46.1, Long 259.4), Ground-based Vector Magnetic Field at Fort Yates, ND, 0.5 sec, THEMIS GEONS network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
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Higher latitude chain (Lat 62.4, Long 214.8), Ground-based Vector Magnetic Field at Gakona, AK, 1.0 sec, THEMIS GBO network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
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Higher latitude chain (Lat 53.3, Long 299.5), Ground-based Vector Magnetic Field at Goose Bay, Canada, 0.5 sec, THEMIS GBO network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
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Higher latitude chain (Lat 69.3, Long 306.5), Ground-based Vector Magnetic Field at Qeqertarsuaq, Greenland, 1 min, DTU network - C. Stolle & J. Matzka (DTU Space, Denmark)
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Higher latitude chain (Lat 64.2, Long 308.3), Ground-based Vector Magnetic Field at Nuuk(Godthap), Greenland 1 min, DTU network - C. Stolle & J. Matzka (DTU Space, Denmark)
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Higher latitude chain (Lat 56.4, Long 265.3), Ground-based Vector Magnetic Field at Gillam, Canada, 0.5 sec Level-2 - V. Angelopoulos & I. Mann (UCB & U Alberta respectively, NASA NAS5-02099)
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Higher latitude chain (Lat 68.6, Long 264.1), Ground-based Vector Magnetic Field at Gjoa Haven, Nunavut, Canada, 0.5 sec, Magnetometer Array for Cusp and Cleft Studies (MACCS) - Erik S. Steinmetz (Augsburg College)
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Lower latitude chain (Lat 13.6, Long 215.1), Ground-based Vector Magnetic Field at Dededo, Guam, 1 sec, USGS Network - Carol A. Finn (United States Geological Survey, Golden, CO)
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Higher latitude chain (Lat 61.2, Long 210.1), Ground-based Vector Magnetic Field at Anchorage, AK, 0.5 sec, THEMIS GBO network - V. Angelopoulos & H. Nielson (UCB & UAlaska, NASA NAS5-02099)
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Higher latitude chain (Lat 59.7, Long 209.5), Ground-based Vector Magnetic Field at Homer, AK, 0.5 sec, THEMIS GBO network - V. Angelopoulos & H. Nielson (UCB & UAlaska, NASA NAS5-02099)
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Lower latitude chain (Lat 21.3, Long 2=158.0), Ground-based Vector Magnetic Field at Ewa Beach, HI, 1 sec, USGS Network - Carol A. Finn (United States Geological Survey, Golden, CO)
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Higher latitude chain (Lat 76.5, Long 25.0), Ground-based Vector Magnetic Field at Hopen, Norway 1 min, Norwegian auroral zone magnetometer network - T. L. Hansen (TGO, University of Tromso)
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Lower latitude chain (Lat 47.6, Long 245.3), Ground-based Vector Magnetic Field at Hot Springs, MT, 0.5 sec, THEMIS GEONS network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
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Higher latitude chain (Lat 69.3, Long 278.2), Ground-based Vector Magnetic Field at Igloolik, Nunavut, Canada, 0.5 sec, Magnetometer Array for Cusp and Cleft Studies (MACCS) - Erik S. Steinmetz (Augsburg College)
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Higher latitude chain (Lat 68.4, Long 226.2), Ground-based Vector Magnetic Field at Inuvik, Canada, 0.5 sec, THEMIS GBO network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
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Higher latitude chain (Lat 66.4, Long 17.0), Ground-based Vector Magnetic Field at Jackvik, Sweden, 1 min, Norwegian auroral zone magnetometer network - T. L. Hansen (TGO, University of Tromso)
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Higher latitude chain (Lat 70.1, Long 217.4), Ground-based Vector Magnetic Field at Kaktovik, AK, 0.5 sec, THEMIS GBO network - V. Angelopoulos & H. Nielson (UCB & UAlaska, NASA NAS5-02099)
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Higher latitude chain (lat 49.4, long 277.7), ground-based vector Magnetic field at Kapuskasing, Canada, 0.5 sec, THEMIS GBO network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
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Higher latitude chain (Lat 59.2, Long 5.2), Ground-based Vector Magnetic Field at Karmoy, Norway 1 min, Norwegian auroral zone magnetometer network - T. L. Hansen (TGO, University of Tromso)
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Higher latitude chain (Lat 67.0, Long 199.6), Ground-based Vector Magnetic Field at Kiana, AK, 0.5 sec, THEMIS GBO network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
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Higher latitude chain (Lat 58.3, Long 291.8), Ground-based Vector Magnetic Field at Kuujjuaq, Canada, 0.5 sec, THEMIS GBO network - V. Angelopoulos & C.T. Russell (UCB & UCLA Respectively, NASA NAS5-02099)
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Higher latitude chain (Lat 74.6, Long 302.8), Ground-based Vector Magnetic Field at Kullorsuaq, Greenland, 1 min, DTU network - C. Stolle & J. Matzka (DTU Space, Denmark)
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Probe state file, contains position, attitude, sun pulse data - V. Angelopoulos (UCB, NASA NAS5-02099) Probe state file, contains position, attitude, sun pulse data - V. Angelopoulos (UCB, NASA NAS5-02099) Probe state file, contains position, attitude, sun pulse data - V. Angelopoulos (UCB, NASA NAS5-02099) Probe state file, contains position, attitude, sun pulse data - V. Angelopoulos (UCB, NASA NAS5-02099) Probe state file, contains position, attitude, sun pulse data - V. Angelopoulos (UCB, NASA NAS5-02099)
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Probe Electric Field Instrument and Search Coil Magnetometer Instrument, Digital Fields Board- digitally computed Filter Bank spectra and E12 peak and average in HF band. - V. Angelopoulos, J. W. Bonnell & F. S. Mozer; A. Roux and R. E. Ergun (UCB; CETP and LASP respectively, NASA NAS5-02099) Probe Electric Field Instrument and Search Coil Magnetometer Instrument, Digital Fields Board- digitally computed Filter Bank spectra and E12 peak and average in HF band. - V. Angelopoulos, J. W. Bonnell & F. S. Mozer; A. Roux and R. E. Ergun (UCB; CETP and LASP respectively, NASA NAS5-02099) Probe Electric Field Instrument and Search Coil Magnetometer Instrument, Digital Fields Board- digitally computed Filter Bank spectra and E12 peak and average in HF band. - V. Angelopoulos, J. W. Bonnell & F. S. Mozer; A. Roux and R. E. Ergun (UCB; CETP and LASP respectively, NASA NAS5-02099) Probe Electric Field Instrument and Search Coil Magnetometer Instrument, Digital Fields Board- digitally computed Filter Bank spectra and E12 peak and average in HF band. - V. Angelopoulos, J. W. Bonnell & F. S. Mozer; A. Roux and R. E. Ergun (UCB; CETP and LASP respectively, NASA NAS5-02099) Probe Electric Field Instrument and Search Coil Magnetometer Instrument, Digital Fields Board- digitally computed Filter Bank spectra and E12 peak and average in HF band. - V. Angelopoulos, J. W. Bonnell & F. S. Mozer; A. Roux and R. E. Ergun (UCB; CETP and LASP respectively, NASA NAS5-02099) Spacecraft-collected (EFI) Electric field - V. Angelopoulos, J. Bonnell & F. Mozer (UCB, NASA NAS5-02099) Spacecraft-collected (EFI) Electric field - V. Angelopoulos, J. Bonnell & F. Mozer (UCB, NASA NAS5-02099) Spacecraft-collected (EFI) Electric field - V. Angelopoulos, J. Bonnell & F. Mozer (UCB, NASA NAS5-02099) Spacecraft-collected (EFI) Electric field - V. Angelopoulos, J. Bonnell & F. Mozer (UCB, NASA NAS5-02099) Spacecraft-collected (EFI) Electric field - V. Angelopoulos, J. Bonnell & F. Mozer (UCB, NASA NAS5-02099) Spacecraft-collected fluxgate magnetometer, Decimated TeleMetry High, DSL, GSE and GSM coordinates - V. Angelopoulos, U. Auster & K.H. Glassmeier and W. Baumjohann (UCB, TUBS and IWF respectively, NASA NAS5-02099) Spacecraft-collected fluxgate magnetometer, Decimated TeleMetry High, DSL, GSE and GSM coordinates - V. Angelopoulos, U. Auster & K.H. Glassmeier and W. Baumjohann (UCB, TUBS and IWF respectively, NASA NAS5-02099) Spacecraft-collected fluxgate magnetometer, Decimated TeleMetry High, DSL, GSE and GSM coordinates - V. Angelopoulos, U. Auster & K.H. Glassmeier and W. Baumjohann (UCB, TUBS and IWF respectively, NASA NAS5-02099) Spacecraft-collected fluxgate magnetometer, Decimated TeleMetry High, DSL, GSE and GSM coordinates - V. Angelopoulos, U. Auster & K.H. Glassmeier and W. Baumjohann (UCB, TUBS and IWF respectively, NASA NAS5-02099) Spacecraft-collected fluxgate magnetometer, Decimated TeleMetry High, DSL, GSE and GSM coordinates - V. Angelopoulos, U. Auster & K.H. Glassmeier and W. Baumjohann (UCB, TUBS and IWF respectively, NASA NAS5-02099) Spacecraft-collected search-coil magnetometer (SCM) Magnetic field - V. Angelopoulos, A. Roux and O. LeContel (UCB, LPP NASA NAS5-02099) Spacecraft-collected search-coil magnetometer (SCM) Magnetic field - V. Angelopoulos, A. Roux and O. LeContel (UCB, LPP NASA NAS5-02099) Spacecraft-collected search-coil magnetometer (SCM) Magnetic field - V. Angelopoulos, A. Roux and O. LeContel (UCB, LPP NASA NAS5-02099) Spacecraft-collected search-coil magnetometer (SCM) Magnetic field - V. Angelopoulos, A. Roux and O. LeContel (UCB, LPP NASA NAS5-02099) Spacecraft-collected search-coil magnetometer (SCM) Magnetic field - V. Angelopoulos, A. Roux and O. LeContel (UCB, LPP NASA NAS5-02099) THEMIS-A (P5): On Board moments: Electron/Ion moments density, flux, velocity, pressure and temperature. - V. Angelopoulos, C.W. Carlson & J. McFadden (UCB, NASA NAS5-02099) THEMIS-A (P5): Solid State Telescope (SST): Energy Flux spectrogram: Data includes: Electron/Ion Ground-Calculated Fluxes (30 keV - 300 keV). - V. Angelopoulos, D. Larson & R.P. Lin (UCB, NASA NAS5-02099) THEMIS-A (P5): Electrostatic Analyzer (ESA): Electron/Ion Ground-Calculated Energy Fluxes (ions: 5 eV to 25 keV) electrons: 6 eV to 30 keV) and Moments (density, velocity, pressure, and temperature). Includes FULL, REDUCED and BURST modes. FULL: high angular resolution, low (few min) time resolution. REDUCED: degraded angular resolution, high (approx. 3 sec) time resolution. BURST: high angular resolution, high time resolution; only short bursts of data. Note that angular resolution affects moments since they are obtained integrating over the mode-specific angular distribution. - V. Angelopoulos, C.W. Carlson & J. McFadden (UCB, NASA NAS5-02099) THEMIS-A: On Board Fast Fourier Transform (FFT) power spectra of Electric (EFI) and Magnetic (SCM) field, for particle and wave burst survey modes. - V. Angelopoulos (UCB, NASA NAS5-02099) THEMIS-A: On Board spin fits of Electric (EFI) and Magnetic (FGM) field. - V. Angelopoulos (UCB, NASA NAS5-02099) THEMIS-B (P1/ARTEMIS-P1): On Board Fast Fourier Transform (FFT) power spectra of Electric (EFI) and Magnetic (SCM) field, for particle and wave burst survey modes. - V. Angelopoulos (UCB, NASA NAS5-02099) THEMIS-B (P1/ARTEMIS-P1): On Board spin fits of Electric (EFI) and Magnetic (FGM) field. - V. Angelopoulos (UCB, NASA NAS5-02099) THEMIS-B (P1/ARTEMIS-P1): Solid State Telescope (SST): Energy Flux spectrogram: Data includes: Electron/Ion Ground-Calculated Fluxes (30 keV - 300 keV). - V. Angelopoulos, D. Larson & R.P. Lin (UCB, NASA NAS5-02099) THEMIS-B (P1/ARTEMIS-P1): Electrostatic Analyzer (ESA): Electron/Ion Ground-Calculated Energy Fluxes (ions: 5 eV to 25 keV) electrons: 6 eV to 30 keV) and Moments (density, velocity, pressure, and temperature). Includes FULL, REDUCED and BURST modes. FULL: high angular resolution, low (few min) time resolution. REDUCED: degraded angular resolution, high (approx. 3 sec) time resolution. BURST: high angular resolution, high time resolution; only short bursts of data. Note that angular resolution affects moments since they are obtained integrating over the mode-specific angular distribution. - V. Angelopoulos, C.W. Carlson & J. McFadden (UCB, NASA NAS5-02099) THEMIS-B (P1/ARTEMIS-P1_): On Board moments: Electron/Ion moments density, flux, velocity, pressure and temperature. - V. Angelopoulos, C.W. Carlson & J. McFadden (UCB, NASA NAS5-02099) THEMIS-C (P2/ARTEMIS-P2): On Board Fast Fourier Transform (FFT) power spectra of Electric (EFI) and Magnetic (SCM) field, for particle and wave burst survey modes. - V. Angelopoulos (UCB, NASA NAS5-02099) THEMIS-C (P2/ARTEMIS-P2): On Board moments: Electron/Ion moments density, flux, velocity, pressure and temperature. - V. Angelopoulos, C.W. Carlson & J. McFadden (UCB, NASA NAS5-02099) THEMIS-C (P2/ARTEMIS-P2): On Board spin fits of Electric (EFI) and Magnetic (FGM) field. - V. Angelopoulos (UCB, NASA NAS5-02099) THEMIS-C (P2/ARTEMIS-P2): Solid State Telescope (SST): Energy Flux spectrogram: Data includes: Electron/Ion Ground-Calculated Fluxes (30 keV - 300 keV). - V. Angelopoulos, D. Larson & R.P. Lin (UCB, NASA NAS5-02099) THEMIS-C (P2/ARTEMIS-P2): Electrostatic Analyzer (ESA): Electron/Ion Ground-Calculated Energy Fluxes (ions: 5 eV to 25 keV) electrons: 6 eV to 30 keV) and Moments (density, velocity, pressure, and temperature). Includes FULL, REDUCED and BURST modes. FULL: high angular resolution, low (few min) time resolution. REDUCED: degraded angular resolution, high (approx. 3 sec) time resolution. BURST: high angular resolution, high time resolution; only short bursts of data. Note that angular resolution affects moments since they are obtained integrating over the mode-specific angular distribution. - V. Angelopoulos, C.W. Carlson & J. McFadden (UCB, NASA NAS5-02099) THEMIS-D (P3): On Board moments: Electron/Ion moments density, flux, velocity, pressure and temperature. - V. Angelopoulos, C.W. Carlson & J. McFadden (UCB, NASA NAS5-02099) THEMIS-D (P3): Solid State Telescope (SST): Energy Flux spectrogram: Data includes: Electron/Ion Ground-Calculated Fluxes (30 keV - 300 keV). - V. Angelopoulos, D. Larson & R.P. Lin (UCB, NASA NAS5-02099) THEMIS-D (P3): Electrostatic Analyzer (ESA): Electron/Ion Ground-Calculated Energy Fluxes (ions: 5 eV to 25 keV) electrons: 6 eV to 30 keV) and Moments (density, velocity, pressure, and temperature). Includes FULL, REDUCED and BURST modes. FULL: high angular resolution, low (few min) time resolution. REDUCED: degraded angular resolution, high (approx. 3 sec) time resolution. BURST: high angular resolution, high time resolution; only short bursts of data. Note that angular resolution affects moments since they are obtained integrating over the mode-specific angular distribution. - V. Angelopoulos, C.W. Carlson & J. McFadden (UCB, NASA NAS5-02099) THEMIS-D: On Board Fast Fourier Transform (FFT) power spectra of Electric (EFI) and Magnetic (SCM) field, for particle and wave burst survey modes. - V. Angelopoulos (UCB, NASA NAS5-02099) THEMIS-D: On Board spin fits of Electric (EFI) and Magnetic (FGM) field. - V. Angelopoulos (UCB, NASA NAS5-02099) THEMIS-E (P4): On Board moments: Electron/Ion moments density, flux, velocity, pressure and temperature. - V. Angelopoulos, C.W. Carlson & J. McFadden (UCB, NASA NAS5-02099) THEMIS-E (P4): Solid State Telescope (SST): Energy Flux spectrogram: Data includes: Electron/Ion Ground-Calculated Fluxes (30 keV - 300 keV). - V. Angelopoulos, D. Larson & R.P. Lin (UCB, NASA NAS5-02099) THEMIS-E (P4): Electrostatic Analyzer (ESA): Electron/Ion Ground-Calculated Energy Fluxes (ions: 5 eV to 25 keV) electrons: 6 eV to 30 keV) and Moments (density, velocity, pressure, and temperature). Includes FULL, REDUCED and BURST modes. FULL: high angular resolution, low (few min) time resolution. REDUCED: degraded angular resolution, high (approx. 3 sec) time resolution. BURST: high angular resolution, high time resolution; only short bursts of data. Note that angular resolution affects moments since they are obtained integrating over the mode-specific angular distribution. - V. Angelopoulos, C.W. Carlson & J. McFadden (UCB, NASA NAS5-02099) THEMIS-E: On Board Fast Fourier Transform (FFT) power spectra of Electric (EFI) and Magnetic (SCM) field, for particle and wave burst survey modes. - V. Angelopoulos (UCB, NASA NAS5-02099) THEMIS-E: On Board spin fits of Electric (EFI) and Magnetic (FGM) field. - V. Angelopoulos (UCB, NASA NAS5-02099) This data set contains ARTEMIS P1(THEMIS B) plasma parameters from the Electrostatic Analyzer (ESA), magnetic field data from the FGM instrument, and geocentric and selenocentric spacecraft position data. The data are at 96s or 384s resolution. For more details see ftp://omniweb.gsfc.nasa.gov/luna/themisb/merged/00readme_themisb.txt - N. Papatashvilli, J.H. King (SPDF, NASA/GSFC) This data set contains ARTEMIS P2(THEMIS C) plasma parameters from the Electrostatic Analyzer (ESA), magnetic field data from the FGM instrument, and geocentric and selenocentric spacecraft position data. The data are at 96s or 384s resolution. For more details see ftp://omniweb.gsfc.nasa.gov/luna/themisb/merged/00readme_themisc.txt - N. Papatashvilli, J.H. King (SPDF, NASA/GSFC)
-
High-Frequency Filter peak and average values
-
Spectrogram FBK Potential, Sensor 1
-
Spectrogram FBK Potential, Sensor 2
-
Spectrogram FBK Potential, Sensor 3
-
Spectrogram FBK Potential, Sensor 4
-
Spectrogram FBK Potential, Sensor 5
-
Spectrogram FBK Potential, Sensor 6
-
Spectrogram FBK E Field DC Component, Sensors 1&2 (spin plane)
-
Spectrogram FBK E Field DC Component, Sensors 3&4 (spin plane)
-
Spectrogram FBK E Field DC Component, Sensors 5&6 (axial)
-
Spectrogram FBK Search Coil Magnetometer (SCM) Axis 1
-
Spectrogram FBK Search Coil Magnetometer (SCM) Axis 2
-
Spectrogram FBK Search Coil Magnetometer (SCM) Axis 3
-
Spectrogram FBK E Field AC Component, Sensors 1&2 (spin plane)
-
Spectrogram FBK E Field AC Component, Sensors 3&4 (spin plane)
-
Spectrogram FBK E Field AC Component, Sensors 5&6 (axial)
-
High-Frequency Filter peak and average values
-
Spectrogram FBK Potential, Sensor 1
-
Spectrogram FBK Potential, Sensor 2
-
Spectrogram FBK Potential, Sensor 3
-
Spectrogram FBK Potential, Sensor 4
-
Spectrogram FBK Potential, Sensor 5
-
Spectrogram FBK Potential, Sensor 6
-
Spectrogram FBK E Field DC Component, Sensors 1&2 (spin plane)
-
Spectrogram FBK E Field DC Component, Sensors 3&4 (spin plane)
-
Spectrogram FBK E Field DC Component, Sensors 5&6 (axial)
-
Spectrogram FBK Search Coil Magnetometer (SCM) Axis 1
-
Spectrogram FBK Search Coil Magnetometer (SCM) Axis 2
-
Spectrogram FBK Search Coil Magnetometer (SCM) Axis 3
-
Spectrogram FBK E Field AC Component, Sensors 1&2 (spin plane)
-
Spectrogram FBK E Field AC Component, Sensors 3&4 (spin plane)
-
Spectrogram FBK E Field AC Component, Sensors 5&6 (axial)
-
High-Frequency Filter peak and average values
-
Spectrogram FBK Potential, Sensor 1
-
Spectrogram FBK Potential, Sensor 2
-
Spectrogram FBK Potential, Sensor 3
-
Spectrogram FBK Potential, Sensor 4
-
Spectrogram FBK Potential, Sensor 5
-
Spectrogram FBK Potential, Sensor 6
-
Spectrogram FBK E Field DC Component, Sensors 1&2 (spin plane)
-
Spectrogram FBK E Field DC Component, Sensors 3&4 (spin plane)
-
Spectrogram FBK E Field DC Component, Sensors 5&6 (axial)
-
Spectrogram FBK Search Coil Magnetometer (SCM) Axis 1
-
Spectrogram FBK Search Coil Magnetometer (SCM) Axis 2
-
Spectrogram FBK Search Coil Magnetometer (SCM) Axis 3
-
Spectrogram FBK E Field AC Component, Sensors 1&2 (spin plane)
-
Spectrogram FBK E Field AC Component, Sensors 3&4 (spin plane)
-
Spectrogram FBK E Field AC Component, Sensors 5&6 (axial)
-
High-Frequency Filter peak and average values
-
Spectrogram FBK Potential, Sensor 1
-
Spectrogram FBK Potential, Sensor 2
-
Spectrogram FBK Potential, Sensor 3
-
Spectrogram FBK Potential, Sensor 4
-
Spectrogram FBK Potential, Sensor 5
-
Spectrogram FBK Potential, Sensor 6
-
Spectrogram FBK E Field DC Component, Sensors 1&2 (spin plane)
-
Spectrogram FBK E Field DC Component, Sensors 3&4 (spin plane)
-
Spectrogram FBK E Field DC Component, Sensors 5&6 (axial)
-
Spectrogram FBK Search Coil Magnetometer (SCM) Axis 1
-
Spectrogram FBK Search Coil Magnetometer (SCM) Axis 2
-
Spectrogram FBK Search Coil Magnetometer (SCM) Axis 3
-
Spectrogram FBK E Field AC Component, Sensors 1&2 (spin plane)
-
Spectrogram FBK E Field AC Component, Sensors 3&4 (spin plane)
-
Spectrogram FBK E Field AC Component, Sensors 5&6 (axial)
-
High-Frequency Filter peak and average values
-
Spectrogram FBK Potential, Sensor 1
-
Spectrogram FBK Potential, Sensor 2
-
Spectrogram FBK Potential, Sensor 3
-
Spectrogram FBK Potential, Sensor 4
-
Spectrogram FBK Potential, Sensor 5
-
Spectrogram FBK Potential, Sensor 6
-
Spectrogram FBK E Field DC Component, Sensors 1&2 (spin plane)
-
Spectrogram FBK E Field DC Component, Sensors 3&4 (spin plane)
-
Spectrogram FBK E Field DC Component, Sensors 5&6 (axial)
-
Spectrogram FBK Search Coil Magnetometer (SCM) Axis 1
-
Spectrogram FBK Search Coil Magnetometer (SCM) Axis 2
-
Spectrogram FBK Search Coil Magnetometer (SCM) Axis 3
-
Spectrogram FBK E Field AC Component, Sensors 1&2 (spin plane)
-
Spectrogram FBK E Field AC Component, Sensors 3&4 (spin plane)
-
Spectrogram FBK E Field AC Component, Sensors 5&6 (axial)
-
EFS_DOT0 (spin-fit, using E dot B=0) electric field vector in GSE coordinates
-
EFS_DOT0 (spin-fit, using E dot B=0) electric field vector in GSM coordinates
-
EFS_DOT0 (spin-fit, using E dot B=0) electric field vector in XYZ despun spacecraft coordinates (DSL)
-
EFF_DOT0 (fast-survey, 1/8 sec time resolution, using E dot B=0) electric field vector in GSE coordinates
-
EFF_DOT0 (fast-survey, 1/8 sec time resolution, using E dot B=0) electric field vector in GSM coordinates
-
EFF_DOT0 (fast-survey, 1/8 sec time resolution, , using E dot B=0) electric field vector in XYZ despun spacecraft coordinates (DSL)
-
EFF_Q_MAG (Data Quality Parameter: equal to the spin-fit E34 electric field magnitude divided by the spin-fit E12 electric field magnitude. Good values are near 1.0)
-
EFF_Q_PHA (Data Quality Parameter: equal to the cosine of the angle between the spin-fit E34 electric field and the spin-fit E12 electric field. Good values are near 1.0)
-
E12_EFS, Ground Spin-fit (using E12), spin plane electric field vector in XYZ despun spacecraft coordinates (DSL)
-
E34_EFS, Ground Spin-fit (using E34), spin plane electric field vector in XYZ despun spacecraft coordinates (DSL)
-
EFS_DOT0 (spin-fit, using E dot B=0) electric field vector in GSE coordinates
-
EFS_DOT0 (spin-fit, using E dot B=0) electric field vector in GSM coordinates
-
EFS_DOT0 (spin-fit, using E dot B=0) electric field vector in XYZ despun spacecraft coordinates (DSL)
-
EFF_DOT0 (fast-survey, 1/8 sec time resolution, using E dot B=0) electric field vector in GSE coordinates
-
EFF_DOT0 (fast-survey, 1/8 sec time resolution, using E dot B=0) electric field vector in GSM coordinates
-
EFF_DOT0 (fast-survey, 1/8 sec time resolution, , using E dot B=0) electric field vector in XYZ despun spacecraft coordinates (DSL)
-
EFF_Q_MAG (Data Quality Parameter: equal to the spin-fit E34 electric field magnitude divided by the spin-fit E12 electric field magnitude. Good values are near 1.0)
-
EFF_Q_PHA (Data Quality Parameter: equal to the cosine of the angle between the spin-fit E34 electric field and the spin-fit E12 electric field. Good values are near 1.0)
-
E12_EFS, Ground Spin-fit (using E12), spin plane electric field vector in XYZ despun spacecraft coordinates (DSL)
-
E34_EFS, Ground Spin-fit (using E34), spin plane electric field vector in XYZ despun spacecraft coordinates (DSL)
-
EFS_DOT0 (spin-fit, using E dot B=0) electric field vector in GSE coordinates
-
EFS_DOT0 (spin-fit, using E dot B=0) electric field vector in GSM coordinates
-
EFS_DOT0 (spin-fit, using E dot B=0) electric field vector in XYZ despun spacecraft coordinates (DSL)
-
EFF_DOT0 (fast-survey, 1/8 sec time resolution, using E dot B=0) electric field vector in GSE coordinates
-
EFF_DOT0 (fast-survey, 1/8 sec time resolution, using E dot B=0) electric field vector in GSM coordinates
-
EFF_DOT0 (fast-survey, 1/8 sec time resolution, , using E dot B=0) electric field vector in XYZ despun spacecraft coordinates (DSL)
-
EFF_Q_MAG (Data Quality Parameter: equal to the spin-fit E34 electric field magnitude divided by the spin-fit E12 electric field magnitude. Good values are near 1.0)
-
EFF_Q_PHA (Data Quality Parameter: equal to the cosine of the angle between the spin-fit E34 electric field and the spin-fit E12 electric field. Good values are near 1.0)
-
E12_EFS, Ground Spin-fit (using E12), spin plane electric field vector in XYZ despun spacecraft coordinates (DSL)
-
E34_EFS, Ground Spin-fit (using E34), spin plane electric field vector in XYZ despun spacecraft coordinates (DSL)
-
EFS_DOT0 (spin-fit, using E dot B=0) electric field vector in GSE coordinates
-
EFS_DOT0 (spin-fit, using E dot B=0) electric field vector in GSM coordinates
-
EFS_DOT0 (spin-fit, using E dot B=0) electric field vector in XYZ despun spacecraft coordinates (DSL)
-
EFF_DOT0 (fast-survey, 1/8 sec time resolution, using E dot B=0) electric field vector in GSE coordinates
-
EFF_DOT0 (fast-survey, 1/8 sec time resolution, using E dot B=0) electric field vector in GSM coordinates
-
EFF_DOT0 (fast-survey, 1/8 sec time resolution, , using E dot B=0) electric field vector in XYZ despun spacecraft coordinates (DSL)
-
EFF_Q_MAG (Data Quality Parameter: equal to the spin-fit E34 electric field magnitude divided by the spin-fit E12 electric field magnitude. Good values are near 1.0)
-
EFF_Q_PHA (Data Quality Parameter: equal to the cosine of the angle between the spin-fit E34 electric field and the spin-fit E12 electric field. Good values are near 1.0)
-
E12_EFS, Ground Spin-fit (using E12), spin plane electric field vector in XYZ despun spacecraft coordinates (DSL)
-
E34_EFS, Ground Spin-fit (using E34), spin plane electric field vector in XYZ despun spacecraft coordinates (DSL)
-
EFS_DOT0 (spin-fit, using E dot B=0) electric field vector in GSE coordinates
-
EFS_DOT0 (spin-fit, using E dot B=0) electric field vector in GSM coordinates
-
EFS_DOT0 (spin-fit, using E dot B=0) electric field vector in XYZ despun spacecraft coordinates (DSL)
-
EFF_DOT0 (fast-survey, 1/8 sec time resolution, using E dot B=0) electric field vector in GSE coordinates
-
EFF_DOT0 (fast-survey, 1/8 sec time resolution, using E dot B=0) electric field vector in GSM coordinates
-
EFF_DOT0 (fast-survey, 1/8 sec time resolution, , using E dot B=0) electric field vector in XYZ despun spacecraft coordinates (DSL)
-
EFF_Q_MAG (Data Quality Parameter: equal to the spin-fit E34 electric field magnitude divided by the spin-fit E12 electric field magnitude. Good values are near 1.0)
-
EFF_Q_PHA (Data Quality Parameter: equal to the cosine of the angle between the spin-fit E34 electric field and the spin-fit E12 electric field. Good values are near 1.0)
-
E12_EFS, Ground Spin-fit (using E12), spin plane electric field vector in XYZ despun spacecraft coordinates (DSL)
-
E34_EFS, Ground Spin-fit (using E34), spin plane electric field vector in XYZ despun spacecraft coordinates (DSL)
-
FGS (spin-resolution/~3 sec) magnetic field B magnitude
-
FGS magnetic field B in XYZ GSE Coordinates
-
FGS magnetic field B in XYZ GSM Coordinates
-
FGS magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
FGL (low-resolution/~0.25 sec) magnetic field B magnitude
-
FGL field B in XYZ GSE Coordinates
-
FGL magnetic field B in XYZ GSM Coordinates
-
FGL magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
FGL magnetic field B in XYZ SSL (Spinning Spacecraft) Coordinates
-
FGH (high-resolution/~0.008 sec) magnetic field B magnitude
-
FGH magnetic field B in XYZ GSE Coordinates
-
FGH magnetic field B in XYZ GSM Coordinates
-
FGH magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
FGH magnetic field B in XYZ SSL (Spinning Spacecraft) Coordinates
-
FGE (engineering mode) magnetic field B magnitude
-
FGE magnetic field B in XYZ GSE Coordinates
-
FGE magnetic field B in XYZ GSM Coordinates
-
FGE magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
FGE magnetic field B in XYZ SSL (Spinning Spacecraft) Coordinates
-
FGS (spin-resolution/~3 sec) magnetic field B magnitude
-
FGS magnetic field B in XYZ GSE Coordinates
-
FGS magnetic field B in XYZ GSM Coordinates
-
FGS magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
FGL (low-resolution/~0.25 sec) magnetic field B magnitude
-
FGL field B in XYZ GSE Coordinates
-
FGL magnetic field B in XYZ GSM Coordinates
-
FGL magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
FGL magnetic field B in XYZ SSL (Spinning Spacecraft) Coordinates
-
FGH (high-resolution/~0.008 sec) magnetic field B magnitude
-
FGH magnetic field B in XYZ GSE Coordinates
-
FGH magnetic field B in XYZ GSM Coordinates
-
FGH magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
FGH magnetic field B in XYZ SSL (Spinning Spacecraft) Coordinates
-
FGE (engineering mode) magnetic field B magnitude
-
FGE magnetic field B in XYZ GSE Coordinates
-
FGE magnetic field B in XYZ GSM Coordinates
-
FGE magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
FGE magnetic field B in XYZ SSL (Spinning Spacecraft) Coordinates
-
FGS (spin-resolution/~3 sec) magnetic field B magnitude
-
FGS magnetic field B in XYZ GSE Coordinates
-
FGS magnetic field B in XYZ GSM Coordinates
-
FGS magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
FGL (low-resolution/~0.25 sec) magnetic field B magnitude
-
FGL field B in XYZ GSE Coordinates
-
FGL magnetic field B in XYZ GSM Coordinates
-
FGL magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
FGL magnetic field B in XYZ SSL (Spinning Spacecraft) Coordinates
-
FGH (high-resolution/~0.008 sec) magnetic field B magnitude
-
FGH magnetic field B in XYZ GSE Coordinates
-
FGH magnetic field B in XYZ GSM Coordinates
-
FGH magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
FGH magnetic field B in XYZ SSL (Spinning Spacecraft) Coordinates
-
FGE (engineering mode) magnetic field B magnitude
-
FGE magnetic field B in XYZ GSE Coordinates
-
FGE magnetic field B in XYZ GSM Coordinates
-
FGE magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
FGE magnetic field B in XYZ SSL (Spinning Spacecraft) Coordinates
-
FGS (spin-resolution/~3 sec) magnetic field B magnitude
-
FGS magnetic field B in XYZ GSE Coordinates
-
FGS magnetic field B in XYZ GSM Coordinates
-
FGS magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
FGL (low-resolution/~0.25 sec) magnetic field B magnitude
-
FGL field B in XYZ GSE Coordinates
-
FGL magnetic field B in XYZ GSM Coordinates
-
FGL magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
FGL magnetic field B in XYZ SSL (Spinning Spacecraft) Coordinates
-
FGH (high-resolution/~0.008 sec) magnetic field B magnitude
-
FGH magnetic field B in XYZ GSE Coordinates
-
FGH magnetic field B in XYZ GSM Coordinates
-
FGH magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
FGH magnetic field B in XYZ SSL (Spinning Spacecraft) Coordinates
-
FGE (engineering mode) magnetic field B magnitude
-
FGE magnetic field B in XYZ GSE Coordinates
-
FGE magnetic field B in XYZ GSM Coordinates
-
FGE magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
FGE magnetic field B in XYZ SSL (Spinning Spacecraft) Coordinates
-
FGS (spin-resolution/~3 sec) magnetic field B magnitude
-
FGS magnetic field B in XYZ GSE Coordinates
-
FGS magnetic field B in XYZ GSM Coordinates
-
FGS magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
FGL (low-resolution/~0.25 sec) magnetic field B magnitude
-
FGL field B in XYZ GSE Coordinates
-
FGL magnetic field B in XYZ GSM Coordinates
-
FGL magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
FGL magnetic field B in XYZ SSL (Spinning Spacecraft) Coordinates
-
FGH (high-resolution/~0.008 sec) magnetic field B magnitude
-
FGH magnetic field B in XYZ GSE Coordinates
-
FGH magnetic field B in XYZ GSM Coordinates
-
FGH magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
FGH magnetic field B in XYZ SSL (Spinning Spacecraft) Coordinates
-
FGE (engineering mode) magnetic field B magnitude
-
FGE magnetic field B in XYZ GSE Coordinates
-
FGE magnetic field B in XYZ GSM Coordinates
-
FGE magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
FGE magnetic field B in XYZ SSL (Spinning Spacecraft) Coordinates
-
SCF (fast-survey, 1/8 sec time resolution) SCM magnetic field B magnitude
-
SCF (fast-survey, 1/8 sec time resolution) SCM magnetic field B in XYZ GSE Coordinates
-
SCF (fast-survey, 1/8 sec time resolution) SCM magnetic field B in XYZ GSM Coordinates
-
SCF (fast-survey, 1/8 sec time resolution) SCM magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
SCP (particle burst, 1/128 second time resolution) SCM magnetic field B magnitude
-
SCP (particle burst, 1/128 second time resolution) SCM magnetic field B in XYZ GSE Coordinates
-
SCP (particle burst, 1/128 second time resolution) SCM magnetic field B in XYZ GSM Coordinates
-
SCP (particle burst, 1/128 second time resolution) SCM magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
SCW (wave burst, 1/8192 second time resolution) SCM magnetic field B magnitude
-
SCW (wave burst, 1/8192 second time resolution) SCM magnetic field B in XYZ GSE Coordinates
-
SCW (wave burst, 1/8192 second time resolution) SCM magnetic field B in XYZ GSM Coordinates
-
SCW (wave burst, 1/8192 second time resolution) SCM magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
SCF (fast-survey, 1/8 sec time resolution) SCM magnetic field B magnitude
-
SCF (fast-survey, 1/8 sec time resolution) SCM magnetic field B in XYZ GSE Coordinates
-
SCF (fast-survey, 1/8 sec time resolution) SCM magnetic field B in XYZ GSM Coordinates
-
SCF (fast-survey, 1/8 sec time resolution) SCM magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
SCP (particle burst, 1/128 second time resolution) SCM magnetic field B magnitude
-
SCP (particle burst, 1/128 second time resolution) SCM magnetic field B in XYZ GSE Coordinates
-
SCP (particle burst, 1/128 second time resolution) SCM magnetic field B in XYZ GSM Coordinates
-
SCP (particle burst, 1/128 second time resolution) SCM magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
SCW (wave burst, 1/8192 second time resolution) SCM magnetic field B magnitude
-
SCW (wave burst, 1/8192 second time resolution) SCM magnetic field B in XYZ GSE Coordinates
-
SCW (wave burst, 1/8192 second time resolution) SCM magnetic field B in XYZ GSM Coordinates
-
SCW (wave burst, 1/8192 second time resolution) SCM magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
SCF (fast-survey, 1/8 sec time resolution) SCM magnetic field B magnitude
-
SCF (fast-survey, 1/8 sec time resolution) SCM magnetic field B in XYZ GSE Coordinates
-
SCF (fast-survey, 1/8 sec time resolution) SCM magnetic field B in XYZ GSM Coordinates
-
SCF (fast-survey, 1/8 sec time resolution) SCM magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
SCP (particle burst, 1/128 second time resolution) SCM magnetic field B magnitude
-
SCP (particle burst, 1/128 second time resolution) SCM magnetic field B in XYZ GSE Coordinates
-
SCP (particle burst, 1/128 second time resolution) SCM magnetic field B in XYZ GSM Coordinates
-
SCP (particle burst, 1/128 second time resolution) SCM magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
SCW (wave burst, 1/8192 second time resolution) SCM magnetic field B magnitude
-
SCW (wave burst, 1/8192 second time resolution) SCM magnetic field B in XYZ GSE Coordinates
-
SCW (wave burst, 1/8192 second time resolution) SCM magnetic field B in XYZ GSM Coordinates
-
SCW (wave burst, 1/8192 second time resolution) SCM magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
SCF (fast-survey, 1/8 sec time resolution) SCM magnetic field B magnitude
-
SCF (fast-survey, 1/8 sec time resolution) SCM magnetic field B in XYZ GSE Coordinates
-
SCF (fast-survey, 1/8 sec time resolution) SCM magnetic field B in XYZ GSM Coordinates
-
SCF (fast-survey, 1/8 sec time resolution) SCM magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
SCP (particle burst, 1/128 second time resolution) SCM magnetic field B magnitude
-
SCP (particle burst, 1/128 second time resolution) SCM magnetic field B in XYZ GSE Coordinates
-
SCP (particle burst, 1/128 second time resolution) SCM magnetic field B in XYZ GSM Coordinates
-
SCP (particle burst, 1/128 second time resolution) SCM magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
SCW (wave burst, 1/8192 second time resolution) SCM magnetic field B magnitude
-
SCW (wave burst, 1/8192 second time resolution) SCM magnetic field B in XYZ GSE Coordinates
-
SCW (wave burst, 1/8192 second time resolution) SCM magnetic field B in XYZ GSM Coordinates
-
SCW (wave burst, 1/8192 second time resolution) SCM magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
SCF (fast-survey, 1/8 sec time resolution) SCM magnetic field B magnitude
-
SCF (fast-survey, 1/8 sec time resolution) SCM magnetic field B in XYZ GSE Coordinates
-
SCF (fast-survey, 1/8 sec time resolution) SCM magnetic field B in XYZ GSM Coordinates
-
SCF (fast-survey, 1/8 sec time resolution) SCM magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
SCP (particle burst, 1/128 second time resolution) SCM magnetic field B magnitude
-
SCP (particle burst, 1/128 second time resolution) SCM magnetic field B in XYZ GSE Coordinates
-
SCP (particle burst, 1/128 second time resolution) SCM magnetic field B in XYZ GSM Coordinates
-
SCP (particle burst, 1/128 second time resolution) SCM magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
SCW (wave burst, 1/8192 second time resolution) SCM magnetic field B magnitude
-
SCW (wave burst, 1/8192 second time resolution) SCM magnetic field B in XYZ GSE Coordinates
-
SCW (wave burst, 1/8192 second time resolution) SCM magnetic field B in XYZ GSM Coordinates
-
SCW (wave burst, 1/8192 second time resolution) SCM magnetic field B in XYZ DSL (Despun Spacecraft) Coordinates
-
Ion Moment Data Quality (0: good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/mom_flag.shtml.)
-
(Good data only) ESA On Board Moment (MOM) Ion Density, THEMIS-A
-
-----Ion Total Pressure
-
-----Ion Particle Flux Vector
-
-----Ion Momentum Flux Tensor
-
-----Ion Energy Flux Vector
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
-----Ion Pressure Tensor
-
-----Magnetic Field Vector DSL (Same time array as MOM Ion ESA data)
-
-----Ion Velocity Vector, Field Aligned
-
-----Ion Temperature, Field Aligned (TprpFA1, TprpFA2, TparFA)
-
-----Ion Pressure Tensor, Field Aligned
-
Electron Moment Data Quality (0: good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/mom_flag.shtml.)
-
(Good data only) ESA On Board Moment (MOM) Electron Density, THEMIS-A
-
-----Electron Total Pressure
-
-----Electron Particle Flux Vector
-
-----Electron Momentum Flux Tensor
-
-----Electron Energy Flux Vector
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
-----Electron Pressure Tensor
-
-----Magnetic Field Vector DSL (Same time array as MOM Electron ESA data)
-
-----Electron Velocity Vector, Field Aligned
-
-----Electron Temperature, Field Aligned (TprpFA1, TprpFA2, TparFA)
-
-----Electron Pressure Tensor, Field Aligned
-
(All qualities data) ESA On Board Moment (MOM) Ion Density, THEMIS-A
-
-----Ion Total Pressure
-
-----Ion Particle Flux Vector
-
-----Ion Momentum Flux Tensor
-
-----Ion Energy Flux Vector
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
-----Ion Pressure Tensor
-
-----Magnetic Field Vector DSL (Same time array as MOM Ion ESA data)
-
-----Ion Velocity Vector, Field Aligned
-
-----Ion Temperature, Field Aligned (TprpFA1, TprpFA2, TparFA)
-
-----Ion Pressure Tensor, Field Aligned
-
(All Qualities data) ESA On Board Moment (MOM) Electron Density, THEMIS-A
-
-----Electron Total Pressure
-
-----Electron Particle Flux Vector
-
-----Electron Momentum Flux Tensor
-
-----Electron Energy Flux Vector
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
-----Electron Pressure Tensor
-
-----Magnetic Field Vector DSL (Same time array as MOM Electron ESA data)
-
-----Electron Velocity Vector, Field Aligned
-
-----Electron Temperature, Field Aligned (TprpFA1, TprpFA2, TparFA)
-
-----Electron Pressure Tensor, Field Aligned
-
Spacecraft Potential, THEMIS-A
-
ESA electron solar wind mode flag; 0: Not in Solar Wind mode, 1: in Solar Wind mode
-
ESA ion solar wind mode flag; 0: Not in Solar Wind mode, 1: in Solar Wind mode
-
SST Ion energy spectrogram
-
SST Electron energy spectrogram
-
ESA electron solar wind mode flag; 0: Not in Solar Wind mode, 1: in Solar Wind mode
-
ESA ion solar wind mode flag; 0: Not in Solar Wind mode, 1: in Solar Wind mode
-
ESA Full Mode Ion Moment Data Quality (0: Good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/esa_flag.shtml.)
-
(Good data only) ESA Full (High Angular Resolution, few minute time res.) Mode, Ion Density
-
-----Ion Average Temperature
-
-----Ion Thermal Velocity
-
-----SC Potential (Same time array as Full Ion ESA data)
-
-----Ion Energy Flux spectrogram w/
-
-----Ion Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Temperature, Field Aligned (TprpFA1, TprpFA2, TparFA)
-
-----Ion Pressure Tensor
-
-----Ion Momentum Flux Tensor
-
-----Ion Particle Flux Vector /w Quality
-
-----Ion Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Ion Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Full Ion ESA data)
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
ESA Full Mode, Electron Moment Data Quality (0: Good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/esa_flag.shtml.)
-
(Good data only) ESA Full (High Angular Resolution, few minute time res.) Mode, Electron Density
-
-----Electron Average Temperature
-
-----Electron Thermal Velocity
-
-----SC Potential (Same time array as Full Electron ESA data)
-
-----Electron Energy Flux spectrogram
-
-----Electron Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Electron Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Electron Pressure Tensor
-
-----Electron Momentum Flux Tensor
-
-----Electron Particle Flux Vector
-
-----Electron Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Electron Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Full Electron ESA data)
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
ESA Reduced Mode, Ion Moment Data Quality (0: Good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/esa_flag.shtml.)
-
(Good data only) ESA Reduced (Low Angular Res., 3-s Time Res.) Mode, Ion Density
-
-----Ion Average Temperature
-
-----Ion Thermal Velocity
-
-----SC Potential (Same time array as Reduced Ion ESA data)
-
-----Ion Energy Flux spectrogram
-
-----Ion Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Ion Pressure Tensor
-
-----Ion Momentum Flux Tensor
-
-----Ion Particle Flux Vector
-
-----Ion Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Ion Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Reduced Ion ESA data)
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
ESA Reduced Mode, Electron Moment Data Quality (0: Good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/esa_flag.shtml.)
-
(Good data only) ESA Reduced (Low Angular Res., 3-s Time Res.) Mode, Electron Density
-
-----Electron Average Temperature
-
-----Electron Thermal Velocity
-
-----SC Potential (Same time array as Reduced Electron ESA data)
-
-----Electron Energy Flux spectrogram
-
-----Electron Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Electron Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Electron Pressure Tensor
-
-----Electron Momentum Flux Tensor
-
-----Electron Particle Flux Vector
-
-----Electron Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Electron Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Reduced Electron ESA data)
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
ESA Burst Mode, Ion Moment Data Quality (0: Good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/esa_flag.shtml.)
-
(Good data only) ESA Burst (High Time and Angular Resolution) Mode, Ion Density
-
-----Ion Average Temperature
-
-----Ion Thermal Velocity
-
-----SC Potential (Same time array as Burst Ion ESA data)
-
-----Ion Energy Flux spectrogram
-
-----Ion Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Ion Pressure Tensor
-
-----Ion Momentum Flux Tensor
-
-----Ion Particle Flux Vector
-
-----Ion Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Ion Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Burst Ion ESA data)
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
ESA Burst Mode, Electron Moment Data Quality (0: Good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/esa_flag.shtml.)
-
(Good data only) ESA Burst (High Time and Angular Resolution) Mode, Electron Density
-
-----Electron Average Temperature
-
-----Electron Thermal Velocity
-
-----SC Potential (Same time array as Burst Electron ESA data)
-
-----Electron Energy Flux spectrogram
-
-----Electron Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Electron Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Electron Pressure Tensor
-
-----Electron Momentum Flux Tensor
-
-----Electron Particle Flux Vector
-
-----Electron Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Electron Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Burst Electron ESA data)
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
(All qualities data) ESA Full (High Angular Resolution, few minute time res.) Mode, Ion Density
-
-----Ion Average Temperature
-
-----Ion Thermal Velocity
-
-----SC Potential (Same time array as Full Ion ESA data)
-
-----Ion Energy Flux spectrogram
-
-----Ion Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Temperature, Field Aligned (TprpFA1, TprpFA2, TparFA)
-
-----Ion Pressure Tensor
-
-----Ion Momentum Flux Tensor
-
-----Ion Particle Flux Vector
-
-----Ion Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Ion Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Full Ion ESA data)
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
(All qualities data) ESA Full (High Angular Resolution, few minute time res.) Mode, Electron Density
-
-----Electron Average Temperature
-
-----Electron Thermal Velocity
-
-----SC Potential (Same time array as Full Electron ESA data)
-
-----Electron Energy Flux spectrogram
-
-----Electron Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Electron Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Electron Pressure Tensor
-
-----Electron Momentum Flux Tensor
-
-----Electron Particle Flux Vector
-
-----Electron Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Electron Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Full Electron ESA data)
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
(All qualities data) ESA Reduced (Low Angular Res., 3-s Time Res.) Mode, Ion Density
-
-----Ion Average Temperature
-
-----Ion Thermal Velocity
-
-----SC Potential (Same time array as Reduced Ion ESA data)
-
-----Ion Energy Flux spectrogram
-
-----Ion Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Ion Pressure Tensor
-
-----Ion Momentum Flux Tensor
-
-----Ion Particle Flux Vector
-
-----Ion Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Ion Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Reduced Ion ESA data)
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
(All qualities data) ESA Reduced (Low Angular Res., 3-s Time Res.) Mode, Electron Density
-
-----Electron Average Temperature
-
-----Electron Thermal Velocity
-
-----SC Potential (Same time array as Reduced Electron ESA data)
-
-----Electron Energy Flux spectrogram
-
-----Electron Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Electron Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Electron Pressure Tensor
-
-----Electron Momentum Flux Tensor
-
-----Electron Particle Flux Vector
-
-----Electron Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Electron Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Reduced Electron ESA data)
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
(All qualities data) ESA Burst (High Time and Angular Resolution) Mode, Ion Density
-
-----Ion Average Temperature
-
-----Ion Thermal Velocity
-
-----SC Potential (Same time array as Burst Ion ESA data)
-
-----Ion Energy Flux spectrogram
-
-----Ion Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Ion Pressure Tensor
-
-----Ion Momentum Flux Tensor
-
-----Ion Particle Flux Vector
-
-----Ion Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Ion Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Burst Ion ESA data)
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
(All qualities data) ESA Burst (High Time and Angular Resolution) Mode, Electron Density
-
-----Electron Average Temperature
-
-----Electron Thermal Velocity
-
-----SC Potential (Same time array as Burst Electron ESA data)
-
-----Electron Energy Flux spectrogram
-
-----Electron Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Electron Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Electron Pressure Tensor
-
-----Electron Momentum Flux Tensor
-
-----Electron Particle Flux Vector
-
-----Electron Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Electron Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Burst Electron ESA data)
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
ESA electron solar wind mode flag; 0: Not in Solar Wind mode, 1: in Solar Wind mode
-
ESA ion solar wind mode flag; 0: Not in Solar Wind mode, 1: in Solar Wind mode
-
FFT Power Spectrum in Fast Survey, 16 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Fast Survey, 32 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Fast Survey, 64 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Particle Burst, 16 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Particle Burst, 32 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Particle Burst, 64 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Wave Burst, 16 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Wave Burst, 32 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Wave Burst, 64 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI Potential, Sensor 6
-
Standard Deviation of onboard FGS magnetic field spin-fit
-
FGS (spin-fit) magnetic field vector in XYZ despun spacecraft coordinates (DSL)
-
FGS (spin-fit) magnetic field vector in GSE coordinates
-
FGS (spin-fit) magnetic field vector in GSM coordinates
-
Standard Deviation of onboard EFS (spin-fit) electric field spin-fit
-
EFS (spin-fit) electric field vector in XYZ despun spacecraft coordinates (DSL)
-
EFS_0 (spin-fit, using E_z=0) electric field E in XYZ despun spacecraft coordinates (DSL)
-
EFS_DOT0 (spin-fit, using E dot B=0) electric field vector in XYZ despun spacecraft coordinates (DSL)
-
EFS (spin-fit) electric field vector in GSE coordinates
-
EFS_0 (spin-fit, using E_z=0) electric field E in GSE coordinates
-
EFS_DOT0 (spin-fit, using E dot B=0) electric field vector in GSE coordinates
-
EFS (spin-fit) electric field vector in GSM coordinates
-
EFS_0 (spin-fit, using E_z=0) electric field E in GSM coordinates
-
EFS_DOT0 (spin-fit, using E dot B=0) electric field vector in GSM coordinates
-
FIT_BFIT spin-fit calibrated data A, B, C, sigma, avg. (DSL)
-
FIT_EFIT spin-fit calibrated data A, B, C, sigma, avg. (DSL)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Fast Survey, 32 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Fast Survey, 64 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Particle Burst, 16 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Particle Burst, 32 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Particle Burst, 64 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Wave Burst, 16 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Wave Burst, 32 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Wave Burst, 64 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI Potential, Sensor 6
-
Standard Deviation of onboard FGS magnetic field spin-fit
-
FGS (spin-fit) magnetic field vector in XYZ despun spacecraft coordinates (DSL)
-
FGS (spin-fit) magnetic field vector in GSE coordinates
-
FGS (spin-fit) magnetic field vector in GSM coordinates
-
Standard Deviation of onboard EFS (spin-fit) electric field spin-fit
-
EFS (spin-fit) electric field vector in XYZ despun spacecraft coordinates (DSL)
-
EFS_0 (spin-fit, using E_z=0) electric field E in XYZ despun spacecraft coordinates (DSL)
-
EFS_DOT0 (spin-fit, using E dot B=0) electric field vector in XYZ despun spacecraft coordinates (DSL)
-
EFS (spin-fit) electric field vector in GSE coordinates
-
EFS_0 (spin-fit, using E_z=0) electric field E in GSE coordinates
-
EFS_DOT0 (spin-fit, using E dot B=0) electric field vector in GSE coordinates
-
EFS (spin-fit) electric field vector in GSM coordinates
-
EFS_0 (spin-fit, using E_z=0) electric field E in GSM coordinates
-
EFS_DOT0 (spin-fit, using E dot B=0) electric field vector in GSM coordinates
-
FIT_BFIT spin-fit calibrated data A, B, C, sigma, avg. (DSL)
-
FIT_EFIT spin-fit calibrated data A, B, C, sigma, avg. (DSL)
-
SST Ion energy spectrogram
-
SST Electron energy spectrogram
-
ESA electron solar wind mode flag; 0: Not in Solar Wind mode, 1: in Solar Wind mode
-
ESA ion solar wind mode flag; 0: Not in Solar Wind mode, 1: in Solar Wind mode
-
ESA Full Mode Ion Moment Data Quality (0: Good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/esa_flag.shtml.)
-
(Good data only) ESA Full (High Angular Resolution, few minute time res.) Mode, Ion Density
-
-----Ion Average Temperature
-
-----Ion Thermal Velocity
-
-----SC Potential (Same time array as Full Ion ESA data)
-
-----Ion Energy Flux spectrogram w/
-
-----Ion Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Temperature, Field Aligned (TprpFA1, TprpFA2, TparFA)
-
-----Ion Pressure Tensor
-
-----Ion Momentum Flux Tensor
-
-----Ion Particle Flux Vector /w Quality
-
-----Ion Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Ion Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Full Ion ESA data)
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
ESA Full Mode, Electron Moment Data Quality (0: Good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/esa_flag.shtml.)
-
(Good data only) ESA Full (High Angular Resolution, few minute time res.) Mode, Electron Density
-
-----Electron Average Temperature
-
-----Electron Thermal Velocity
-
-----SC Potential (Same time array as Full Electron ESA data)
-
-----Electron Energy Flux spectrogram
-
-----Electron Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Electron Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Electron Pressure Tensor
-
-----Electron Momentum Flux Tensor
-
-----Electron Particle Flux Vector
-
-----Electron Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Electron Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Full Electron ESA data)
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
ESA Reduced Mode, Ion Moment Data Quality (0: Good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/esa_flag.shtml.)
-
(Good data only) ESA Reduced (Low Angular Res., 3-s Time Res.) Mode, Ion Density
-
-----Ion Average Temperature
-
-----Ion Thermal Velocity
-
-----SC Potential (Same time array as Reduced Ion ESA data)
-
-----Ion Energy Flux spectrogram
-
-----Ion Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Ion Pressure Tensor
-
-----Ion Momentum Flux Tensor
-
-----Ion Particle Flux Vector
-
-----Ion Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Ion Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Reduced Ion ESA data)
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
ESA Reduced Mode, Electron Moment Data Quality (0: Good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/esa_flag.shtml.)
-
(Good data only) ESA Reduced (Low Angular Res., 3-s Time Res.) Mode, Electron Density
-
-----Electron Average Temperature
-
-----Electron Thermal Velocity
-
-----SC Potential (Same time array as Reduced Electron ESA data)
-
-----Electron Energy Flux spectrogram
-
-----Electron Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Electron Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Electron Pressure Tensor
-
-----Electron Momentum Flux Tensor
-
-----Electron Particle Flux Vector
-
-----Electron Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Electron Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Reduced Electron ESA data)
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
ESA Burst Mode, Ion Moment Data Quality (0: Good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/esa_flag.shtml.)
-
(Good data only) ESA Burst (High Time and Angular Resolution) Mode, Ion Density
-
-----Ion Average Temperature
-
-----Ion Thermal Velocity
-
-----SC Potential (Same time array as Burst Ion ESA data)
-
-----Ion Energy Flux spectrogram
-
-----Ion Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Ion Pressure Tensor
-
-----Ion Momentum Flux Tensor
-
-----Ion Particle Flux Vector
-
-----Ion Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Ion Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Burst Ion ESA data)
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
ESA Burst Mode, Electron Moment Data Quality (0: Good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/esa_flag.shtml.)
-
(Good data only) ESA Burst (High Time and Angular Resolution) Mode, Electron Density
-
-----Electron Average Temperature
-
-----Electron Thermal Velocity
-
-----SC Potential (Same time array as Burst Electron ESA data)
-
-----Electron Energy Flux spectrogram
-
-----Electron Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Electron Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Electron Pressure Tensor
-
-----Electron Momentum Flux Tensor
-
-----Electron Particle Flux Vector
-
-----Electron Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Electron Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Burst Electron ESA data)
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
(All qualities data) ESA Full (High Angular Resolution, few minute time res.) Mode, Ion Density
-
-----Ion Average Temperature
-
-----Ion Thermal Velocity
-
-----SC Potential (Same time array as Full Ion ESA data)
-
-----Ion Energy Flux spectrogram
-
-----Ion Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Temperature, Field Aligned (TprpFA1, TprpFA2, TparFA)
-
-----Ion Pressure Tensor
-
-----Ion Momentum Flux Tensor
-
-----Ion Particle Flux Vector
-
-----Ion Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Ion Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Full Ion ESA data)
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
(All qualities data) ESA Full (High Angular Resolution, few minute time res.) Mode, Electron Density
-
-----Electron Average Temperature
-
-----Electron Thermal Velocity
-
-----SC Potential (Same time array as Full Electron ESA data)
-
-----Electron Energy Flux spectrogram
-
-----Electron Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Electron Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Electron Pressure Tensor
-
-----Electron Momentum Flux Tensor
-
-----Electron Particle Flux Vector
-
-----Electron Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Electron Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Full Electron ESA data)
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
(All qualities data) ESA Reduced (Low Angular Res., 3-s Time Res.) Mode, Ion Density
-
-----Ion Average Temperature
-
-----Ion Thermal Velocity
-
-----SC Potential (Same time array as Reduced Ion ESA data)
-
-----Ion Energy Flux spectrogram
-
-----Ion Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Ion Pressure Tensor
-
-----Ion Momentum Flux Tensor
-
-----Ion Particle Flux Vector
-
-----Ion Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Ion Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Reduced Ion ESA data)
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
(All qualities data) ESA Reduced (Low Angular Res., 3-s Time Res.) Mode, Electron Density
-
-----Electron Average Temperature
-
-----Electron Thermal Velocity
-
-----SC Potential (Same time array as Reduced Electron ESA data)
-
-----Electron Energy Flux spectrogram
-
-----Electron Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Electron Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Electron Pressure Tensor
-
-----Electron Momentum Flux Tensor
-
-----Electron Particle Flux Vector
-
-----Electron Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Electron Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Reduced Electron ESA data)
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
(All qualities data) ESA Burst (High Time and Angular Resolution) Mode, Ion Density
-
-----Ion Average Temperature
-
-----Ion Thermal Velocity
-
-----SC Potential (Same time array as Burst Ion ESA data)
-
-----Ion Energy Flux spectrogram
-
-----Ion Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Ion Pressure Tensor
-
-----Ion Momentum Flux Tensor
-
-----Ion Particle Flux Vector
-
-----Ion Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Ion Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Burst Ion ESA data)
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
(All qualities data) ESA Burst (High Time and Angular Resolution) Mode, Electron Density
-
-----Electron Average Temperature
-
-----Electron Thermal Velocity
-
-----SC Potential (Same time array as Burst Electron ESA data)
-
-----Electron Energy Flux spectrogram
-
-----Electron Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Electron Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Electron Pressure Tensor
-
-----Electron Momentum Flux Tensor
-
-----Electron Particle Flux Vector
-
-----Electron Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Electron Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Burst Electron ESA data)
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
ESA electron solar wind mode flag; 0: Not in Solar Wind mode, 1: in Solar Wind mode
-
ESA ion solar wind mode flag; 0: Not in Solar Wind mode, 1: in Solar Wind mode
-
Ion Moment Data Quality (0: good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/mom_flag.shtml.)
-
(Good data only) ESA On Board Moment (MOM) Ion Density, THEMIS-B
-
-----Ion Total Pressure
-
-----Ion Particle Flux Vector
-
-----Ion Momentum Flux Tensor
-
-----Ion Energy Flux Vector
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
-----Ion Pressure Tensor
-
-----Magnetic Field Vector DSL (Same time array as MOM Ion ESA data)
-
-----Ion Velocity Vector, Field Aligned
-
-----Ion Temperature, Field Aligned (TprpFA1, TprpFA2, TparFA)
-
-----Ion Pressure Tensor, Field Aligned
-
Electron Moment Data Quality (0: good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/mom_flag.shtml.)
-
(Good data only) ESA On Board Moment (MOM) Electron Density, THEMIS-B
-
-----Electron Total Pressure
-
-----Electron Particle Flux Vector
-
-----Electron Momentum Flux Tensor
-
-----Electron Energy Flux Vector
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
-----Electron Pressure Tensor
-
-----Magnetic Field Vector DSL (Same time array as MOM Electron ESA data)
-
-----Electron Velocity Vector, Field Aligned
-
-----Electron Temperature, Field Aligned (TprpFA1, TprpFA2, TparFA)
-
-----Electron Pressure Tensor, Field Aligned
-
(All qualities data) ESA On Board Moment (MOM) Ion Density, THEMIS-B
-
-----Ion Total Pressure
-
-----Ion Particle Flux Vector
-
-----Ion Momentum Flux Tensor
-
-----Ion Energy Flux Vector
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
-----Ion Pressure Tensor
-
-----Magnetic Field Vector DSL (Same time array as MOM Ion ESA data)
-
-----Ion Velocity Vector, Field Aligned
-
-----Ion Temperature, Field Aligned (TprpFA1, TprpFA2, TparFA)
-
-----Ion Pressure Tensor, Field Aligned
-
(All Qualities data) ESA On Board Moment (MOM) Electron Density, THEMIS-B
-
-----Electron Total Pressure
-
-----Electron Particle Flux Vector
-
-----Electron Momentum Flux Tensor
-
-----Electron Energy Flux Vector
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
-----Electron Pressure Tensor
-
-----Magnetic Field Vector DSL (Same time array as MOM Electron ESA data)
-
-----Electron Velocity Vector, Field Aligned
-
-----Electron Temperature, Field Aligned (TprpFA1, TprpFA2, TparFA)
-
-----Electron Pressure Tensor, Field Aligned
-
Spacecraft Potential, THEMIS-B
-
ESA electron solar wind mode flag; 0: Not in Solar Wind mode, 1: in Solar Wind mode
-
ESA ion solar wind mode flag; 0: Not in Solar Wind mode, 1: in Solar Wind mode
-
FFT Power Spectrum in Fast Survey, 16 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Fast Survey, 32 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Fast Survey, 64 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Particle Burst, 16 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Particle Burst, 32 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Particle Burst, 64 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Wave Burst, 16 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Wave Burst, 32 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Wave Burst, 64 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI Potential, Sensor 6
-
Ion Moment Data Quality (0: good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/mom_flag.shtml.)
-
(Good data only) ESA On Board Moment (MOM) Ion Density, THEMIS-C
-
-----Ion Total Pressure
-
-----Ion Particle Flux Vector
-
-----Ion Momentum Flux Tensor
-
-----Ion Energy Flux Vector
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
-----Ion Pressure Tensor
-
-----Magnetic Field Vector DSL (Same time array as MOM Ion ESA data)
-
-----Ion Velocity Vector, Field Aligned
-
-----Ion Temperature, Field Aligned (TprpFA1, TprpFA2, TparFA)
-
-----Ion Pressure Tensor, Field Aligned
-
Electron Moment Data Quality (0: good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/mom_flag.shtml.)
-
(Good data only) ESA On Board Moment (MOM) Electron Density, THEMIS-C
-
-----Electron Total Pressure
-
-----Electron Particle Flux Vector
-
-----Electron Momentum Flux Tensor
-
-----Electron Energy Flux Vector
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
-----Electron Pressure Tensor
-
-----Magnetic Field Vector DSL (Same time array as MOM Electron ESA data)
-
-----Electron Velocity Vector, Field Aligned
-
-----Electron Temperature, Field Aligned (TprpFA1, TprpFA2, TparFA)
-
-----Electron Pressure Tensor, Field Aligned
-
(All qualities data) ESA On Board Moment (MOM) Ion Density, THEMIS-C
-
-----Ion Total Pressure
-
-----Ion Particle Flux Vector
-
-----Ion Momentum Flux Tensor
-
-----Ion Energy Flux Vector
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
-----Ion Pressure Tensor
-
-----Magnetic Field Vector DSL (Same time array as MOM Ion ESA data)
-
-----Ion Velocity Vector, Field Aligned
-
-----Ion Temperature, Field Aligned (TprpFA1, TprpFA2, TparFA)
-
-----Ion Pressure Tensor, Field Aligned
-
(All Qualities data) ESA On Board Moment (MOM) Electron Density, THEMIS-C
-
-----Electron Total Pressure
-
-----Electron Particle Flux Vector
-
-----Electron Momentum Flux Tensor
-
-----Electron Energy Flux Vector
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
-----Electron Pressure Tensor
-
-----Magnetic Field Vector DSL (Same time array as MOM Electron ESA data)
-
-----Electron Velocity Vector, Field Aligned
-
-----Electron Temperature, Field Aligned (TprpFA1, TprpFA2, TparFA)
-
-----Electron Pressure Tensor, Field Aligned
-
Spacecraft Potential, THEMIS-C
-
ESA electron solar wind mode flag; 0: Not in Solar Wind mode, 1: in Solar Wind mode
-
ESA ion solar wind mode flag; 0: Not in Solar Wind mode, 1: in Solar Wind mode
-
Standard Deviation of onboard FGS magnetic field spin-fit
-
FGS (spin-fit) magnetic field vector in XYZ despun spacecraft coordinates (DSL)
-
FGS (spin-fit) magnetic field vector in GSE coordinates
-
FGS (spin-fit) magnetic field vector in GSM coordinates
-
Standard Deviation of onboard EFS (spin-fit) electric field spin-fit
-
EFS (spin-fit) electric field vector in XYZ despun spacecraft coordinates (DSL)
-
EFS_0 (spin-fit, using E_z=0) electric field E in XYZ despun spacecraft coordinates (DSL)
-
EFS_DOT0 (spin-fit, using E dot B=0) electric field vector in XYZ despun spacecraft coordinates (DSL)
-
EFS (spin-fit) electric field vector in GSE coordinates
-
EFS_0 (spin-fit, using E_z=0) electric field E in GSE coordinates
-
EFS_DOT0 (spin-fit, using E dot B=0) electric field vector in GSE coordinates
-
EFS (spin-fit) electric field vector in GSM coordinates
-
EFS_0 (spin-fit, using E_z=0) electric field E in GSM coordinates
-
EFS_DOT0 (spin-fit, using E dot B=0) electric field vector in GSM coordinates
-
FIT_BFIT spin-fit calibrated data A, B, C, sigma, avg. (DSL)
-
FIT_EFIT spin-fit calibrated data A, B, C, sigma, avg. (DSL)
-
SST Ion energy spectrogram
-
SST Electron energy spectrogram
-
ESA electron solar wind mode flag; 0: Not in Solar Wind mode, 1: in Solar Wind mode
-
ESA ion solar wind mode flag; 0: Not in Solar Wind mode, 1: in Solar Wind mode
-
ESA Full Mode Ion Moment Data Quality (0: Good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/esa_flag.shtml.)
-
(Good data only) ESA Full (High Angular Resolution, few minute time res.) Mode, Ion Density
-
-----Ion Average Temperature
-
-----Ion Thermal Velocity
-
-----SC Potential (Same time array as Full Ion ESA data)
-
-----Ion Energy Flux spectrogram w/
-
-----Ion Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Temperature, Field Aligned (TprpFA1, TprpFA2, TparFA)
-
-----Ion Pressure Tensor
-
-----Ion Momentum Flux Tensor
-
-----Ion Particle Flux Vector /w Quality
-
-----Ion Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Ion Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Full Ion ESA data)
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
ESA Full Mode, Electron Moment Data Quality (0: Good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/esa_flag.shtml.)
-
(Good data only) ESA Full (High Angular Resolution, few minute time res.) Mode, Electron Density
-
-----Electron Average Temperature
-
-----Electron Thermal Velocity
-
-----SC Potential (Same time array as Full Electron ESA data)
-
-----Electron Energy Flux spectrogram
-
-----Electron Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Electron Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Electron Pressure Tensor
-
-----Electron Momentum Flux Tensor
-
-----Electron Particle Flux Vector
-
-----Electron Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Electron Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Full Electron ESA data)
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
ESA Reduced Mode, Ion Moment Data Quality (0: Good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/esa_flag.shtml.)
-
(Good data only) ESA Reduced (Low Angular Res., 3-s Time Res.) Mode, Ion Density
-
-----Ion Average Temperature
-
-----Ion Thermal Velocity
-
-----SC Potential (Same time array as Reduced Ion ESA data)
-
-----Ion Energy Flux spectrogram
-
-----Ion Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Ion Pressure Tensor
-
-----Ion Momentum Flux Tensor
-
-----Ion Particle Flux Vector
-
-----Ion Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Ion Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Reduced Ion ESA data)
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
ESA Reduced Mode, Electron Moment Data Quality (0: Good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/esa_flag.shtml.)
-
(Good data only) ESA Reduced (Low Angular Res., 3-s Time Res.) Mode, Electron Density
-
-----Electron Average Temperature
-
-----Electron Thermal Velocity
-
-----SC Potential (Same time array as Reduced Electron ESA data)
-
-----Electron Energy Flux spectrogram
-
-----Electron Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Electron Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Electron Pressure Tensor
-
-----Electron Momentum Flux Tensor
-
-----Electron Particle Flux Vector
-
-----Electron Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Electron Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Reduced Electron ESA data)
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
ESA Burst Mode, Ion Moment Data Quality (0: Good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/esa_flag.shtml.)
-
(Good data only) ESA Burst (High Time and Angular Resolution) Mode, Ion Density
-
-----Ion Average Temperature
-
-----Ion Thermal Velocity
-
-----SC Potential (Same time array as Burst Ion ESA data)
-
-----Ion Energy Flux spectrogram
-
-----Ion Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Ion Pressure Tensor
-
-----Ion Momentum Flux Tensor
-
-----Ion Particle Flux Vector
-
-----Ion Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Ion Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Burst Ion ESA data)
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
ESA Burst Mode, Electron Moment Data Quality (0: Good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/esa_flag.shtml.)
-
(Good data only) ESA Burst (High Time and Angular Resolution) Mode, Electron Density
-
-----Electron Average Temperature
-
-----Electron Thermal Velocity
-
-----SC Potential (Same time array as Burst Electron ESA data)
-
-----Electron Energy Flux spectrogram
-
-----Electron Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Electron Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Electron Pressure Tensor
-
-----Electron Momentum Flux Tensor
-
-----Electron Particle Flux Vector
-
-----Electron Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Electron Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Burst Electron ESA data)
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
(All qualities data) ESA Full (High Angular Resolution, few minute time res.) Mode, Ion Density
-
-----Ion Average Temperature
-
-----Ion Thermal Velocity
-
-----SC Potential (Same time array as Full Ion ESA data)
-
-----Ion Energy Flux spectrogram
-
-----Ion Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Temperature, Field Aligned (TprpFA1, TprpFA2, TparFA)
-
-----Ion Pressure Tensor
-
-----Ion Momentum Flux Tensor
-
-----Ion Particle Flux Vector
-
-----Ion Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Ion Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Full Ion ESA data)
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
(All qualities data) ESA Full (High Angular Resolution, few minute time res.) Mode, Electron Density
-
-----Electron Average Temperature
-
-----Electron Thermal Velocity
-
-----SC Potential (Same time array as Full Electron ESA data)
-
-----Electron Energy Flux spectrogram
-
-----Electron Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Electron Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Electron Pressure Tensor
-
-----Electron Momentum Flux Tensor
-
-----Electron Particle Flux Vector
-
-----Electron Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Electron Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Full Electron ESA data)
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
(All qualities data) ESA Reduced (Low Angular Res., 3-s Time Res.) Mode, Ion Density
-
-----Ion Average Temperature
-
-----Ion Thermal Velocity
-
-----SC Potential (Same time array as Reduced Ion ESA data)
-
-----Ion Energy Flux spectrogram
-
-----Ion Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Ion Pressure Tensor
-
-----Ion Momentum Flux Tensor
-
-----Ion Particle Flux Vector
-
-----Ion Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Ion Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Reduced Ion ESA data)
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
(All qualities data) ESA Reduced (Low Angular Res., 3-s Time Res.) Mode, Electron Density
-
-----Electron Average Temperature
-
-----Electron Thermal Velocity
-
-----SC Potential (Same time array as Reduced Electron ESA data)
-
-----Electron Energy Flux spectrogram
-
-----Electron Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Electron Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Electron Pressure Tensor
-
-----Electron Momentum Flux Tensor
-
-----Electron Particle Flux Vector
-
-----Electron Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Electron Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Reduced Electron ESA data)
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
(All qualities data) ESA Burst (High Time and Angular Resolution) Mode, Ion Density
-
-----Ion Average Temperature
-
-----Ion Thermal Velocity
-
-----SC Potential (Same time array as Burst Ion ESA data)
-
-----Ion Energy Flux spectrogram
-
-----Ion Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Ion Pressure Tensor
-
-----Ion Momentum Flux Tensor
-
-----Ion Particle Flux Vector
-
-----Ion Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Ion Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Burst Ion ESA data)
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
(All qualities data) ESA Burst (High Time and Angular Resolution) Mode, Electron Density
-
-----Electron Average Temperature
-
-----Electron Thermal Velocity
-
-----SC Potential (Same time array as Burst Electron ESA data)
-
-----Electron Energy Flux spectrogram
-
-----Electron Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Electron Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Electron Pressure Tensor
-
-----Electron Momentum Flux Tensor
-
-----Electron Particle Flux Vector
-
-----Electron Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Electron Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Burst Electron ESA data)
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
ESA electron solar wind mode flag; 0: Not in Solar Wind mode, 1: in Solar Wind mode
-
ESA ion solar wind mode flag; 0: Not in Solar Wind mode, 1: in Solar Wind mode
-
Ion Moment Data Quality (0: good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/mom_flag.shtml.)
-
(Good data only) ESA On Board Moment (MOM) Ion Density, THEMIS-D
-
-----Ion Total Pressure
-
-----Ion Particle Flux Vector
-
-----Ion Momentum Flux Tensor
-
-----Ion Energy Flux Vector
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
-----Ion Pressure Tensor
-
-----Magnetic Field Vector DSL (Same time array as MOM Ion ESA data)
-
-----Ion Velocity Vector, Field Aligned
-
-----Ion Temperature, Field Aligned (TprpFA1, TprpFA2, TparFA)
-
-----Ion Pressure Tensor, Field Aligned
-
Electron Moment Data Quality (0: good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/mom_flag.shtml.)
-
(Good data only) ESA On Board Moment (MOM) Electron Density, THEMIS-D
-
-----Electron Total Pressure
-
-----Electron Particle Flux Vector
-
-----Electron Momentum Flux Tensor
-
-----Electron Energy Flux Vector
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
-----Electron Pressure Tensor
-
-----Magnetic Field Vector DSL (Same time array as MOM Electron ESA data)
-
-----Electron Velocity Vector, Field Aligned
-
-----Electron Temperature, Field Aligned (TprpFA1, TprpFA2, TparFA)
-
-----Electron Pressure Tensor, Field Aligned
-
(All qualities data) ESA On Board Moment (MOM) Ion Density, THEMIS-D
-
-----Ion Total Pressure
-
-----Ion Particle Flux Vector
-
-----Ion Momentum Flux Tensor
-
-----Ion Energy Flux Vector
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
-----Ion Pressure Tensor
-
-----Magnetic Field Vector DSL (Same time array as MOM Ion ESA data)
-
-----Ion Velocity Vector, Field Aligned
-
-----Ion Temperature, Field Aligned (TprpFA1, TprpFA2, TparFA)
-
-----Ion Pressure Tensor, Field Aligned
-
(All Qualities data) ESA On Board Moment (MOM) Electron Density, THEMIS-D
-
-----Electron Total Pressure
-
-----Electron Particle Flux Vector
-
-----Electron Momentum Flux Tensor
-
-----Electron Energy Flux Vector
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
-----Electron Pressure Tensor
-
-----Magnetic Field Vector DSL (Same time array as MOM Electron ESA data)
-
-----Electron Velocity Vector, Field Aligned
-
-----Electron Temperature, Field Aligned (TprpFA1, TprpFA2, TparFA)
-
-----Electron Pressure Tensor, Field Aligned
-
Spacecraft Potential, THEMIS-D
-
ESA electron solar wind mode flag; 0: Not in Solar Wind mode, 1: in Solar Wind mode
-
ESA ion solar wind mode flag; 0: Not in Solar Wind mode, 1: in Solar Wind mode
-
SST Ion energy spectrogram
-
SST Electron energy spectrogram
-
ESA electron solar wind mode flag; 0: Not in Solar Wind mode, 1: in Solar Wind mode
-
ESA ion solar wind mode flag; 0: Not in Solar Wind mode, 1: in Solar Wind mode
-
ESA Full Mode Ion Moment Data Quality (0: Good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/esa_flag.shtml.)
-
(Good data only) ESA Full (High Angular Resolution, few minute time res.) Mode, Ion Density
-
-----Ion Average Temperature
-
-----Ion Thermal Velocity
-
-----SC Potential (Same time array as Full Ion ESA data)
-
-----Ion Energy Flux spectrogram w/
-
-----Ion Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Temperature, Field Aligned (TprpFA1, TprpFA2, TparFA)
-
-----Ion Pressure Tensor
-
-----Ion Momentum Flux Tensor
-
-----Ion Particle Flux Vector /w Quality
-
-----Ion Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Ion Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Full Ion ESA data)
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
ESA Full Mode, Electron Moment Data Quality (0: Good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/esa_flag.shtml.)
-
(Good data only) ESA Full (High Angular Resolution, few minute time res.) Mode, Electron Density
-
-----Electron Average Temperature
-
-----Electron Thermal Velocity
-
-----SC Potential (Same time array as Full Electron ESA data)
-
-----Electron Energy Flux spectrogram
-
-----Electron Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Electron Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Electron Pressure Tensor
-
-----Electron Momentum Flux Tensor
-
-----Electron Particle Flux Vector
-
-----Electron Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Electron Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Full Electron ESA data)
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
ESA Reduced Mode, Ion Moment Data Quality (0: Good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/esa_flag.shtml.)
-
(Good data only) ESA Reduced (Low Angular Res., 3-s Time Res.) Mode, Ion Density
-
-----Ion Average Temperature
-
-----Ion Thermal Velocity
-
-----SC Potential (Same time array as Reduced Ion ESA data)
-
-----Ion Energy Flux spectrogram
-
-----Ion Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Ion Pressure Tensor
-
-----Ion Momentum Flux Tensor
-
-----Ion Particle Flux Vector
-
-----Ion Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Ion Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Reduced Ion ESA data)
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
ESA Reduced Mode, Electron Moment Data Quality (0: Good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/esa_flag.shtml.)
-
(Good data only) ESA Reduced (Low Angular Res., 3-s Time Res.) Mode, Electron Density
-
-----Electron Average Temperature
-
-----Electron Thermal Velocity
-
-----SC Potential (Same time array as Reduced Electron ESA data)
-
-----Electron Energy Flux spectrogram
-
-----Electron Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Electron Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Electron Pressure Tensor
-
-----Electron Momentum Flux Tensor
-
-----Electron Particle Flux Vector
-
-----Electron Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Electron Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Reduced Electron ESA data)
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
ESA Burst Mode, Ion Moment Data Quality (0: Good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/esa_flag.shtml.)
-
(Good data only) ESA Burst (High Time and Angular Resolution) Mode, Ion Density
-
-----Ion Average Temperature
-
-----Ion Thermal Velocity
-
-----SC Potential (Same time array as Burst Ion ESA data)
-
-----Ion Energy Flux spectrogram
-
-----Ion Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Ion Pressure Tensor
-
-----Ion Momentum Flux Tensor
-
-----Ion Particle Flux Vector
-
-----Ion Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Ion Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Burst Ion ESA data)
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
ESA Burst Mode, Electron Moment Data Quality (0: Good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/esa_flag.shtml.)
-
(Good data only) ESA Burst (High Time and Angular Resolution) Mode, Electron Density
-
-----Electron Average Temperature
-
-----Electron Thermal Velocity
-
-----SC Potential (Same time array as Burst Electron ESA data)
-
-----Electron Energy Flux spectrogram
-
-----Electron Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Electron Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Electron Pressure Tensor
-
-----Electron Momentum Flux Tensor
-
-----Electron Particle Flux Vector
-
-----Electron Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Electron Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Burst Electron ESA data)
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
(All qualities data) ESA Full (High Angular Resolution, few minute time res.) Mode, Ion Density
-
-----Ion Average Temperature
-
-----Ion Thermal Velocity
-
-----SC Potential (Same time array as Full Ion ESA data)
-
-----Ion Energy Flux spectrogram
-
-----Ion Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Temperature, Field Aligned (TprpFA1, TprpFA2, TparFA)
-
-----Ion Pressure Tensor
-
-----Ion Momentum Flux Tensor
-
-----Ion Particle Flux Vector
-
-----Ion Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Ion Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Full Ion ESA data)
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
(All qualities data) ESA Full (High Angular Resolution, few minute time res.) Mode, Electron Density
-
-----Electron Average Temperature
-
-----Electron Thermal Velocity
-
-----SC Potential (Same time array as Full Electron ESA data)
-
-----Electron Energy Flux spectrogram
-
-----Electron Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Electron Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Electron Pressure Tensor
-
-----Electron Momentum Flux Tensor
-
-----Electron Particle Flux Vector
-
-----Electron Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Electron Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Full Electron ESA data)
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
(All qualities data) ESA Reduced (Low Angular Res., 3-s Time Res.) Mode, Ion Density
-
-----Ion Average Temperature
-
-----Ion Thermal Velocity
-
-----SC Potential (Same time array as Reduced Ion ESA data)
-
-----Ion Energy Flux spectrogram
-
-----Ion Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Ion Pressure Tensor
-
-----Ion Momentum Flux Tensor
-
-----Ion Particle Flux Vector
-
-----Ion Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Ion Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Reduced Ion ESA data)
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
(All qualities data) ESA Reduced (Low Angular Res., 3-s Time Res.) Mode, Electron Density
-
-----Electron Average Temperature
-
-----Electron Thermal Velocity
-
-----SC Potential (Same time array as Reduced Electron ESA data)
-
-----Electron Energy Flux spectrogram
-
-----Electron Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Electron Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Electron Pressure Tensor
-
-----Electron Momentum Flux Tensor
-
-----Electron Particle Flux Vector
-
-----Electron Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Electron Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Reduced Electron ESA data)
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
(All qualities data) ESA Burst (High Time and Angular Resolution) Mode, Ion Density
-
-----Ion Average Temperature
-
-----Ion Thermal Velocity
-
-----SC Potential (Same time array as Burst Ion ESA data)
-
-----Ion Energy Flux spectrogram
-
-----Ion Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Ion Pressure Tensor
-
-----Ion Momentum Flux Tensor
-
-----Ion Particle Flux Vector
-
-----Ion Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Ion Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Burst Ion ESA data)
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
(All qualities data) ESA Burst (High Time and Angular Resolution) Mode, Electron Density
-
-----Electron Average Temperature
-
-----Electron Thermal Velocity
-
-----SC Potential (Same time array as Burst Electron ESA data)
-
-----Electron Energy Flux spectrogram
-
-----Electron Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Electron Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Electron Pressure Tensor
-
-----Electron Momentum Flux Tensor
-
-----Electron Particle Flux Vector
-
-----Electron Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Electron Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Burst Electron ESA data)
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
ESA electron solar wind mode flag; 0: Not in Solar Wind mode, 1: in Solar Wind mode
-
ESA ion solar wind mode flag; 0: Not in Solar Wind mode, 1: in Solar Wind mode
-
FFT Power Spectrum in Fast Survey, 16 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Fast Survey, 32 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Fast Survey, 64 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Particle Burst, 16 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Particle Burst, 32 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Particle Burst, 64 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Wave Burst, 16 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Wave Burst, 32 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Wave Burst, 64 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI Potential, Sensor 6
-
Standard Deviation of onboard FGS magnetic field spin-fit
-
FGS (spin-fit) magnetic field vector in XYZ despun spacecraft coordinates (DSL)
-
FGS (spin-fit) magnetic field vector in GSE coordinates
-
FGS (spin-fit) magnetic field vector in GSM coordinates
-
Standard Deviation of onboard EFS (spin-fit) electric field spin-fit
-
EFS (spin-fit) electric field vector in XYZ despun spacecraft coordinates (DSL)
-
EFS_0 (spin-fit, using E_z=0) electric field E in XYZ despun spacecraft coordinates (DSL)
-
EFS_DOT0 (spin-fit, using E dot B=0) electric field vector in XYZ despun spacecraft coordinates (DSL)
-
EFS (spin-fit) electric field vector in GSE coordinates
-
EFS_0 (spin-fit, using E_z=0) electric field E in GSE coordinates
-
EFS_DOT0 (spin-fit, using E dot B=0) electric field vector in GSE coordinates
-
EFS (spin-fit) electric field vector in GSM coordinates
-
EFS_0 (spin-fit, using E_z=0) electric field E in GSM coordinates
-
EFS_DOT0 (spin-fit, using E dot B=0) electric field vector in GSM coordinates
-
FIT_BFIT spin-fit calibrated data A, B, C, sigma, avg. (DSL)
-
FIT_EFIT spin-fit calibrated data A, B, C, sigma, avg. (DSL)
-
Ion Moment Data Quality (0: good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/mom_flag.shtml.)
-
(Good data only) ESA On Board Moment (MOM) Ion Density, THEMIS-E
-
-----Ion Total Pressure
-
-----Ion Particle Flux Vector
-
-----Ion Momentum Flux Tensor
-
-----Ion Energy Flux Vector
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
-----Ion Pressure Tensor
-
-----Magnetic Field Vector DSL (Same time array as MOM Ion ESA data)
-
-----Ion Velocity Vector, Field Aligned
-
-----Ion Temperature, Field Aligned (TprpFA1, TprpFA2, TparFA)
-
-----Ion Pressure Tensor, Field Aligned
-
Electron Moment Data Quality (0: good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/mom_flag.shtml.)
-
(Good data only) ESA On Board Moment (MOM) Electron Density, THEMIS-E
-
-----Electron Total Pressure
-
-----Electron Particle Flux Vector
-
-----Electron Momentum Flux Tensor
-
-----Electron Energy Flux Vector
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
-----Electron Pressure Tensor
-
-----Magnetic Field Vector DSL (Same time array as MOM Electron ESA data)
-
-----Electron Velocity Vector, Field Aligned
-
-----Electron Temperature, Field Aligned (TprpFA1, TprpFA2, TparFA)
-
-----Electron Pressure Tensor, Field Aligned
-
(All qualities data) ESA On Board Moment (MOM) Ion Density, THEMIS-E
-
-----Ion Total Pressure
-
-----Ion Particle Flux Vector
-
-----Ion Momentum Flux Tensor
-
-----Ion Energy Flux Vector
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
-----Ion Pressure Tensor
-
-----Magnetic Field Vector DSL (Same time array as MOM Ion ESA data)
-
-----Ion Velocity Vector, Field Aligned
-
-----Ion Temperature, Field Aligned (TprpFA1, TprpFA2, TparFA)
-
-----Ion Pressure Tensor, Field Aligned
-
(All Qualities data) ESA On Board Moment (MOM) Electron Density, THEMIS-E
-
-----Electron Total Pressure
-
-----Electron Particle Flux Vector
-
-----Electron Momentum Flux Tensor
-
-----Electron Energy Flux Vector
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
-----Electron Pressure Tensor
-
-----Magnetic Field Vector DSL (Same time array as MOM Electron ESA data)
-
-----Electron Velocity Vector, Field Aligned
-
-----Electron Temperature, Field Aligned (TprpFA1, TprpFA2, TparFA)
-
-----Electron Pressure Tensor, Field Aligned
-
Spacecraft Potential, THEMIS-E
-
ESA electron solar wind mode flag; 0: Not in Solar Wind mode, 1: in Solar Wind mode
-
ESA ion solar wind mode flag; 0: Not in Solar Wind mode, 1: in Solar Wind mode
-
SST Ion energy spectrogram
-
SST Electron energy spectrogram
-
ESA electron solar wind mode flag; 0: Not in Solar Wind mode, 1: in Solar Wind mode
-
ESA ion solar wind mode flag; 0: Not in Solar Wind mode, 1: in Solar Wind mode
-
ESA Full Mode Ion Moment Data Quality (0: Good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/esa_flag.shtml.)
-
(Good data only) ESA Full (High Angular Resolution, few minute time res.) Mode, Ion Density
-
-----Ion Average Temperature
-
-----Ion Thermal Velocity
-
-----SC Potential (Same time array as Full Ion ESA data)
-
-----Ion Energy Flux spectrogram w/
-
-----Ion Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Temperature, Field Aligned (TprpFA1, TprpFA2, TparFA)
-
-----Ion Pressure Tensor
-
-----Ion Momentum Flux Tensor
-
-----Ion Particle Flux Vector /w Quality
-
-----Ion Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Ion Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Full Ion ESA data)
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
ESA Full Mode, Electron Moment Data Quality (0: Good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/esa_flag.shtml.)
-
(Good data only) ESA Full (High Angular Resolution, few minute time res.) Mode, Electron Density
-
-----Electron Average Temperature
-
-----Electron Thermal Velocity
-
-----SC Potential (Same time array as Full Electron ESA data)
-
-----Electron Energy Flux spectrogram
-
-----Electron Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Electron Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Electron Pressure Tensor
-
-----Electron Momentum Flux Tensor
-
-----Electron Particle Flux Vector
-
-----Electron Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Electron Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Full Electron ESA data)
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
ESA Reduced Mode, Ion Moment Data Quality (0: Good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/esa_flag.shtml.)
-
(Good data only) ESA Reduced (Low Angular Res., 3-s Time Res.) Mode, Ion Density
-
-----Ion Average Temperature
-
-----Ion Thermal Velocity
-
-----SC Potential (Same time array as Reduced Ion ESA data)
-
-----Ion Energy Flux spectrogram
-
-----Ion Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Ion Pressure Tensor
-
-----Ion Momentum Flux Tensor
-
-----Ion Particle Flux Vector
-
-----Ion Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Ion Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Reduced Ion ESA data)
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
ESA Reduced Mode, Electron Moment Data Quality (0: Good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/esa_flag.shtml.)
-
(Good data only) ESA Reduced (Low Angular Res., 3-s Time Res.) Mode, Electron Density
-
-----Electron Average Temperature
-
-----Electron Thermal Velocity
-
-----SC Potential (Same time array as Reduced Electron ESA data)
-
-----Electron Energy Flux spectrogram
-
-----Electron Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Electron Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Electron Pressure Tensor
-
-----Electron Momentum Flux Tensor
-
-----Electron Particle Flux Vector
-
-----Electron Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Electron Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Reduced Electron ESA data)
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
ESA Burst Mode, Ion Moment Data Quality (0: Good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/esa_flag.shtml.)
-
(Good data only) ESA Burst (High Time and Angular Resolution) Mode, Ion Density
-
-----Ion Average Temperature
-
-----Ion Thermal Velocity
-
-----SC Potential (Same time array as Burst Ion ESA data)
-
-----Ion Energy Flux spectrogram
-
-----Ion Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Ion Pressure Tensor
-
-----Ion Momentum Flux Tensor
-
-----Ion Particle Flux Vector
-
-----Ion Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Ion Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Burst Ion ESA data)
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
ESA Burst Mode, Electron Moment Data Quality (0: Good data, non-zero: Data may not be suitable, see: http://themis.ssl.berkeley.edu/esa_flag.shtml.)
-
(Good data only) ESA Burst (High Time and Angular Resolution) Mode, Electron Density
-
-----Electron Average Temperature
-
-----Electron Thermal Velocity
-
-----SC Potential (Same time array as Burst Electron ESA data)
-
-----Electron Energy Flux spectrogram
-
-----Electron Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Electron Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Electron Pressure Tensor
-
-----Electron Momentum Flux Tensor
-
-----Electron Particle Flux Vector
-
-----Electron Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Electron Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Burst Electron ESA data)
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
(All qualities data) ESA Full (High Angular Resolution, few minute time res.) Mode, Ion Density
-
-----Ion Average Temperature
-
-----Ion Thermal Velocity
-
-----SC Potential (Same time array as Full Ion ESA data)
-
-----Ion Energy Flux spectrogram
-
-----Ion Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Temperature, Field Aligned (TprpFA1, TprpFA2, TparFA)
-
-----Ion Pressure Tensor
-
-----Ion Momentum Flux Tensor
-
-----Ion Particle Flux Vector
-
-----Ion Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Ion Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Full Ion ESA data)
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
(All qualities data) ESA Full (High Angular Resolution, few minute time res.) Mode, Electron Density
-
-----Electron Average Temperature
-
-----Electron Thermal Velocity
-
-----SC Potential (Same time array as Full Electron ESA data)
-
-----Electron Energy Flux spectrogram
-
-----Electron Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Electron Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Electron Pressure Tensor
-
-----Electron Momentum Flux Tensor
-
-----Electron Particle Flux Vector
-
-----Electron Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Electron Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Full Electron ESA data)
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
(All qualities data) ESA Reduced (Low Angular Res., 3-s Time Res.) Mode, Ion Density
-
-----Ion Average Temperature
-
-----Ion Thermal Velocity
-
-----SC Potential (Same time array as Reduced Ion ESA data)
-
-----Ion Energy Flux spectrogram
-
-----Ion Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Ion Pressure Tensor
-
-----Ion Momentum Flux Tensor
-
-----Ion Particle Flux Vector
-
-----Ion Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Ion Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Reduced Ion ESA data)
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
(All qualities data) ESA Reduced (Low Angular Res., 3-s Time Res.) Mode, Electron Density
-
-----Electron Average Temperature
-
-----Electron Thermal Velocity
-
-----SC Potential (Same time array as Reduced Electron ESA data)
-
-----Electron Energy Flux spectrogram
-
-----Electron Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Electron Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Electron Pressure Tensor
-
-----Electron Momentum Flux Tensor
-
-----Electron Particle Flux Vector
-
-----Electron Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Electron Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Reduced Electron ESA data)
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
(All qualities data) ESA Burst (High Time and Angular Resolution) Mode, Ion Density
-
-----Ion Average Temperature
-
-----Ion Thermal Velocity
-
-----SC Potential (Same time array as Burst Ion ESA data)
-
-----Ion Energy Flux spectrogram
-
-----Ion Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Ion Pressure Tensor
-
-----Ion Momentum Flux Tensor
-
-----Ion Particle Flux Vector
-
-----Ion Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Ion Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Burst Ion ESA data)
-
-----Ion Velocity Vector in DSL
-
-----Ion Velocity Vector in GSE
-
-----Ion Velocity Vector in GSM
-
(All qualities data) ESA Burst (High Time and Angular Resolution) Mode, Electron Density
-
-----Electron Average Temperature
-
-----Electron Thermal Velocity
-
-----SC Potential (Same time array as Burst Electron ESA data)
-
-----Electron Energy Flux spectrogram
-
-----Electron Diagonalized Temperature (Tprp1, Tprp2, Tpar)
-
-----Electron Temperature, Field Aligned (Tprp1FA, Tprp2FA, TparFA)
-
-----Electron Pressure Tensor
-
-----Electron Momentum Flux Tensor
-
-----Electron Particle Flux Vector
-
-----Electron Symmetry Vector (direction of pressure tensor symmetry (DSL))
-
-----Electron Symmetry Angle (between symmetry direction and B)
-
-----Magnetic Field Vector in DSL (Same time array as Burst Electron ESA data)
-
-----Electron Velocity Vector in DSL
-
-----Electron Velocity Vector in GSE
-
-----Electron Velocity Vector in GSM
-
ESA electron solar wind mode flag; 0: Not in Solar Wind mode, 1: in Solar Wind mode
-
ESA ion solar wind mode flag; 0: Not in Solar Wind mode, 1: in Solar Wind mode
-
FFT Power Spectrum in Fast Survey, 16 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Fast Survey, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Fast Survey, 16 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Fast Survey, 32 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Fast Survey, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Fast Survey, 32 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Fast Survey, 64 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Fast Survey, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Fast Survey, 64 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Particle Burst, 16 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Particle Burst, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Particle Burst, 16 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Particle Burst, 32 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Particle Burst, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Particle Burst, 32 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Particle Burst, 64 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Particle Burst, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Particle Burst, 64 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Wave Burst, 16 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Wave Burst, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 16 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Wave Burst, 16 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Wave Burst, 32 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Wave Burst, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 32 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Wave Burst, 32 frequencies for EFI Potential, Sensor 6
-
FFT Power Spectrum in Wave Burst, 64 frequencies for SCM delta-B (parallel to B)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for SCM delta-B (perp to B)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for E Field AC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for E Field AC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for E Field AC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for E Field DC Component, Sensors 1&2 (spin plane)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for E Field DC Component, Sensors 3&4 (spin plane)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for E Field DC Component, Sensors 5&6 (axial)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI E (parallel to B)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI E (perp to B)
-
FFT Power Spectrum in Wave Burst, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 64 frequencies for SCM, Axis 1
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI Potential, Sensor 1
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI Potential, Sensor 2
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI Potential, Sensor 3
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI Potential, Sensor 4
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI Potential, Sensor 5
-
FFT Power Spectrum in Wave Burst, 64 frequencies for EFI Potential, Sensor 6
-
Standard Deviation of onboard FGS magnetic field spin-fit
-
FGS (spin-fit) magnetic field vector in XYZ despun spacecraft coordinates (DSL)
-
FGS (spin-fit) magnetic field vector in GSE coordinates
-
FGS (spin-fit) magnetic field vector in GSM coordinates
-
Standard Deviation of onboard EFS (spin-fit) electric field spin-fit
-
EFS (spin-fit) electric field vector in XYZ despun spacecraft coordinates (DSL)
-
EFS_0 (spin-fit, using E_z=0) electric field E in XYZ despun spacecraft coordinates (DSL)
-
EFS_DOT0 (spin-fit, using E dot B=0) electric field vector in XYZ despun spacecraft coordinates (DSL)
-
EFS (spin-fit) electric field vector in GSE coordinates
-
EFS_0 (spin-fit, using E_z=0) electric field E in GSE coordinates
-
EFS_DOT0 (spin-fit, using E dot B=0) electric field vector in GSE coordinates
-
EFS (spin-fit) electric field vector in GSM coordinates
-
EFS_0 (spin-fit, using E_z=0) electric field E in GSM coordinates
-
EFS_DOT0 (spin-fit, using E dot B=0) electric field vector in GSM coordinates
-
FIT_BFIT spin-fit calibrated data A, B, C, sigma, avg. (DSL)
-
FIT_EFIT spin-fit calibrated data A, B, C, sigma, avg. (DSL)
-
FGS (spin-resolution/~3 sec) magnetic field B magnitude
-
FGS magnetic field B in XYZ GSE Coordinates
-
(Good data only) ESA Full (High Angular Resolution, few minute time res.) Mode, Ion Density
-
-----Ion Thermal Velocity
-
-----Plasma flow speed
-
-----Ion Velocity Vector in GSE
-
XYZ in GSE coordinates (time-series)
-
XYZ in SSE coordinates (time-series)
-
Esa Ion Mode Flag, 0=magnetospheric mode 1=solar wind mode
-
FGS (spin-resolution/~3 sec) magnetic field B magnitude
-
FGS magnetic field B in XYZ GSE Coordinates
-
(Good data only) ESA Full (High Angular Resolution, few minute time res.) Mode, Ion Density
-
-----Ion Thermal Velocity
-
-----Plasma flow speed
-
-----Ion Velocity Vector in GSE
-
XYZ in GSE coordinates (time-series)
-
XYZ in SSE coordinates (time-series)
-
Esa Ion Mode Flag, 0=magnetospheric mode 1=solar wind mode
-
Lower latitude chain (Lat 55.2, Long 254.7), Ground-based Vector Magnetic Field at La Ronge, Saskatchewan, Canada, 0.5 sec - V. Angelopoulos, C. T. Russell, and M. Connors (UCB, UCLA, and U Athabasca respectively, NASA NAS5-02099)
-
Lower latitude chain (Lat 49.6, Long 247.1), Ground-based Vector Magnetic Field at Lethbridge, Alberta, Canada, 0.5 sec - V. Angelopoulos, C. T. Russell, and M. Connors (UCB, UCLA, and U Athabasca respectively, NASA NAS5-02099)
-
Lower latitude chain (Lat 40.2, Long 281.6), Ground-based Vector Magnetic Field at Loysburg PA, 0.5 sec, THEMIS GEONS network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
-
Higher latitude chain (Lat 78.2, Long 15.8), Ground-based Vector Magnetic Field at Longyearbyen, Norway, 1 min, Norwegian auroral zone magnetometer network - T. L. Hansen (TGO, University of Tromso)
-
Higher latitude chain (Lat 63.0, Long 204.4), Ground-based Vector Magnetic Field at McGrath, AK, 0.5 sec, THEMIS GBO network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
-
Higher latitude chain (Lat 79.0, Long 11.9), Ground-based Vector Magnetic Field at Ny Alesund, Norway, 1 min, Norwegian auroral zone magnetometer network - T. L. Hansen (TGO, University of Tromso)
-
Higher latitude chain (Lat 56.4, Long 298.3 ), Ground-based Vector Magnetic Field at Nain, Canada, 0.5 sec, THEMIS GBO network - Erik S. Steinmetz (Augsburg College, steinmee@augsburg.edu) Higher latitude chain (Lat 61.2, Long 314.6), Ground-based Vector Magnetic Field at Narsarsuaq, Greenland, 1 min, DTU network - C. Stolle & J. Matzka (DTU Space, Denmark) Higher latitude chain (Lat 61.2, Long 314.6), Ground-based Vector Magnetic Field at Narsarsuaq, Greenland, 20 sec, THEMIS GBO network - Hans Gleisner (DMI, Denmark) Higher latitude chain (Lat 64.2, Long 283.4), Ground-based Vector Magnetic Field at Dorset, Canada, 0.5 sec, THEMIS GBO network - Erik S. Steinmetz (Augsburg College, steinmee@augsburg.edu)
-
Lower latitude chain (Lat 48.3, Long 117.1), Ground-based Vector Magnetic Field at Colville, National Forest, WA, 1 sec, USGS Network - Carol A. Finn (United States Geological Survey, Golden, CO)
-
Higher latitude chain (Lat 71.1, Long 25.8), Ground-based Vector Magnetic Field at Nordkapp, Norway, 1 min, Norwegian auroral zone magnetometer network - T. L. Hansen (TGO, University of Tromso)
-
Higher latitude chain (Lat 81.6, Long 343.3), Ground-based Vector Magnetic Field at Nord, Greenland, 20 sec, DMI network - Hans Gleisner (DMI, Denmark)
-
Higher latitude chain (Lat 66.1, Long 294.2), Ground-based Vector Magnetic Field at Pangnirtung, Nunavut, Canada, 0.5 sec, Magnetometer Array for Cusp and Cleft Studies (MACCS) - Erik S. Steinmetz (Augsburg College)
-
Higher latitude chain (Lat 70.1, Long 170.9), Ground-based Vector Magnetic Field at Pevek, Russia. 1 minute time resolution. - Oleg Troshichev (Department of Geophysics, Arctic and Antarctic Research Institute)
-
Higher latitude chain (Lat -85.5, Long 77.2), Ground-based Vector Magnetic Field in Antarctica - C. R. Clauer (Virginia Tech.)
-
Higher latitude chain (Lat -84.4, Long 58.0), Ground-based Vector Magnetic Field in Antarctica - C. R. Clauer (Virginia Tech.)
-
Higher latitude chain (Lat 53.8, Long 237.2), Ground-based Vector Magnetic Field at Prince George Canada, 0.5 sec, THEMIS GBO network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
-
Higher latitude chain (Lat 50.2, Long 263.9), Ground-based Vector Magnetic Field at Pinawa, Canada, 0.5 sec Level-2 - V. Angelopoulos & I. Mann (UCB & U Alberta respectively, NASA NAS5-02099)
-
Lower latitude chain (Lat 43.1, Long 257.4), Ground-based Vector Magnetic Field at Pine Ridge, SD, 0.5 sec, THEMIS GEONS network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
-
Higher latitude chain (Lat 65.1, Long 212.6), Ground-based Vector Magnetic Field at Poker Flat, AK, 0.5 sec, THEMIS GBO network - V. Angelopoulos & H. Nielson (UCB & UAlaska, NASA NAS5-02099)
-
Higher latitude chain (Lat 56.8, Long 226.8), Ground-based Vector Magnetic Field at Petersburg, AK, 0.5 sec, THEMIS GEONS network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
-
THEMIS A/B/C/D/E Electric Field Instrument (EFI) Waveform Level-1 Products - V. Angelopoulos (UCB, NASA NAS5-02099) THEMIS GMAG Reprocesses http://cdaweb.gsfc.nasa.gov/THEMIS_GMAG_Processing_History.doc - V. Angelopoulos (UCB, NASA NAS5-02099) THEMIS Ground-Based All Sky Imager (ASI) Level-0 Image Data links - V. Angelopoulos (UCB, NASA NAS5-02099)
-
Higher latitude chain (Lat 62.8, Long 267.9), Ground-based Vector Magnetic Field at Rankin Inlet, Canada, 0.5 sec Level-2 - V. Angelopoulos & I. Mann (UCB & U Alberta respectively, NASA NAS5-02099)
-
Higher latitude chain (Lat 66.5, Long 273.8), Ground-based Vector Magnetic Field at Repulse Bay, Canada, 0.5 sec, Magnetometer Array for Cusp and Cleft Studies (MACCS) - Erik S. Steinmetz (Augsburg College)
-
Lower latitude chain (Lat 52.1, Long 246.2), Ground-based Vector Magnetic Field at Red Deer, Alberta, Canada, 0.5 sec Level-2 - V. Angelopoulos, C. T. Russell, and M. Connors (UCB, UCLA, and U Athabasca respectively, NASA NAS5-02099)
-
Lower latitude chain (Lat 43.6, Long 274.8), Ground-based Vector Magnetic Field at Remus, MI, 0.5 sec, THEMIS GEONS network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
-
Higher latitude chain (Lat 55.2, Long 8.6), Ground-based Vector Magnetic Field at Roemoe, Denmark, 1 min, DTU network - C. Stolle & J. Matzka (DTU Space, Denmark)
-
Lower latitude chain (Lat 50.9, Long 245.7), Ground-based Vector Magnetic Field at Priddis, Alberta, Canada, 0.5 sec Level-2 - V. Angelopoulos, C. T. Russell, and M. Connors (UCB, UCLA, and U Athabasca respectively, NASA NAS5-02099)
-
Higher latitude chain (Lat 64.9, Long 11.0), Ground-based Vector Magnetic Field at Rorvik, Norway, 1 min, Norwegian auroral zone magnetometer network - T. L. Hansen (TGO, University of Tromso)
-
Higher latitude chain (Lat 70.4, Long 338.0), Ground-based Vector Magnetic Field at Ittoqqortoormiit, Greenland, 60 sec, DTU network - C. Stolle & J. Matzka (DTU Space, Denmark)
-
Higher latitude chain (Lat 55.4, Long 160.46), Ground-based Vector Magnetic Field at Sand Point, Alaska, 1.0 sec time Resolution. - Carol A. Finn (United States Geological Survey, 1711 Illinois St, Golden, CO 80401-1865, USA)
-
Higher latitude chain (Lat 57.1, Long 135.3), Ground-based Vector Magnetic Field at Sitka, Alaska, 1.0 sec time Resolution. - Carol A. Finn (United States Geological Survey, 1711 Illinois St, Golden, CO 80401-1865, USA)
-
Lower latitude chain (Lat 18.1, Long 66.2), Ground-based Vector Magnetic Field at Cayey, Puerto Rico, 1 sec, USGS Network - Carol A. Finn (United States Geological Survey, Golden, CO)
-
Higher latitude chain (Lat 65.4, Long 307.1), Ground-based Vector Magnetic Field at Maniitsoq, Greenland, 1, DTU network - C. Stolle & J. Matzka (DTU Space, Denmark)
-
Higher latitude chain (Lat 63.6, Long 249.1), Ground-based Vector Magnetic Field at Snap Lake, Canada, 0.5 sec, THEMIS GBO network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
-
Higher latitude chain (Lat 56.5, Long 280.8), Ground-based Vector Magnetic Field at Sanikiluaq, Canada, 0.5 sec Level-2 - V. Angelopoulos & I. Mann (UCB & U Alberta respectively, NASA NAS5-02099)
-
Higher latitude chain (Lat 61.1, Long 4.8), Ground-based Vector Magnetic Field at Solund, Norway 1 min, Norwegian auroral zone magnetometer network - T. L. Hansen (TGO, University of Tromso)
-
Higher latitude chain (Lat 70.5, Long 22.2), Ground-based Vector Magnetic Field at Soroya Norway, 1 min, Norwegian auroral zone magnetometer network - T. L. Hansen (TGO, University of Tromso)
-
Orbit parameters from SSCWeb - SSCWeb (SPDF/Goddard) Orbit parameters from SSCWeb - SSCWeb (SPDF/Goddard) Orbit parameters from SSCWeb - SSCWeb (SPDF/Goddard) Orbit parameters from SSCWeb - SSCWeb (SPDF/Goddard) Orbit parameters from SSCWeb - SSCWeb (SPDF/Goddard)
-
Higher latitude chain (Lat 67.0, Long 309.3), Ground-based Vector Magnetic Field at Kangerlussuaq, Greenland, 1 min, DTU network - C. Stolle & J. Matzka (DTU Space, Denmark)
-
Higher latitude chain (Lat 76.0, Long 294.9), Ground-based Vector Magnetic Field at Savissivik, Greenland, 20 sec, DMI network - Hans Gleisner (DMI, Denmark)
-
Lower latitude chain (Lat 44.8, Long 271.4), Ground-based Vector Magnetic Field at Shawano, WI, 0.5 sec, THEMIS GEONS network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
-
Lower latitude chain (Lat -37.1, Long 347.7), Ground-based Vector Magnetic Field at Tristan Da Cunha, 1 min - Norwegian auroral zone magnetometer network - T. L. Hansen (TGO, University of Tromso)
-
Higher latitude chain (Lat 77.5, Long 290.8), Ground-based Vector Magnetic Field at Qaanaaq, Greenland, 1 min, DTU network - C. Stolle & J. Matzka (DTU Space, Denmark)
-
Higher latitude chain (Lat 71.6, Long 128.9), Ground-based Vector Magnetic Field at Tiksi, Russia. 1 minute time resolution. - Oleg Troshichev (Department of Geophysics, Arctic and Antarctic Research Institute)
-
Higher latitude chain (Lat 54.0, Long 259.1), Ground-based Vector Magnetic Field at Flin Flon/The Pas, Canada, 0.5 sec, THEMIS GBO network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
-
Higher latitude chain (Lat 62.3, Long 209.8), Ground-based Vector Magnetic Field at Trapper Creek, AK, 0.5 sec, THEMIS GBO network - V. Angelopoulos & H. Nielson (UCB & UAlaska, NASA NAS5-02099)
-
Higher latitude chain (Lat 69.7, Long 18.9), Ground-based Vector Magnetic Field at Tromso, Norway 1 min, DTU network - C. Stolle & J. Matzka (DTU Space, Denmark)
-
Lower latitude chain (Lat 32.2, Long 110.7), Ground-based Vector Magnetic Field at Tucson, Arizona, 1 sec, USGS Network - Carol A. Finn (United States Geological Survey, Golden, CO)
-
Lower latitude chain (Lat 45.1, Long 241.1), Ground-based Vector Magnetic Field at Ukiah, OR, 0.5 sec, THEMIS GEONS network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
-
Higher latitude chain (Lat 70.7, Long 307.9), Ground-based Vector Magnetic Field at Uummannaq, Greenland, 1 min, DTU network - C. Stolle & J. Matzka (DTU Space, Denmark)
-
Higher latitude chain (Lat 72.8, Long 303.8), Ground-based Vector Magnetic Field at Upernavik, Greenland, 1 min., DTU network - C. Stolle & J. Matzka (DTU Space, Denmark)
-
Higher latitude chain (Lat 61.0, Long 224.8), Ground-based Vector Magnetic Field at White Horse, Canada, 0.5 sec, THEMIS GBO network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
-
Higher latitude chain (Lat 62.5, Long 245.5), Ground-based Vector Magnetic Field at Yellowknife, Canada, 1.0 sec time Resolution. - David Calp (Geological Survey of Canada)
-
Higher latitude chain (Lat 62.5, Long 245.7), Ground-based Vector Magnetic Field at Yellowknife, Canada, 0.5 sec, THEMIS GBO network - V. Angelopoulos & C. T. Russell (UCB & UCLA respectively, NASA NAS5-02099)
-
GUVI SABER SEE TIDI
-
Airglow flux 14 day movies, at wavelength 1216 A in North Polar Projection - Andrew Christensen (Aerospace) Airglow flux 14 day movies, at wavelength 1216 A in South Polar Projection - Andrew Christensen (Aerospace) Airglow flux 14 day movies, at wavelength 1216A in Mercator Projection - Andrew Christensen (Aerospace) Airglow flux 14 day movies, at wavelength 1304A in Mercator Projection - Andrew Christensen (Aerospace) Airglow flux 14 day movies, at wavelength 1304A in North Polar Projection - Andrew Christensen (Aerospace) Airglow flux 14 day movies, at wavelength 1304A in South Polar Projection - Andrew Christensen (Aerospace) Airglow flux 14 day movies, at wavelength 1356A in Mercator Projection - Andrew Christensen (Aerospace) Airglow flux 14 day movies, at wavelength 1356A in North Polar Pojection - Andrew Christensen (Aerospace) Airglow flux 14 day movies, at wavelength 1356A in South Polar Pojection - Andrew Christensen (Aerospace) Airglow flux 14 day movies, at wavelength LBH1 in Mercator Projection - Andrew Christensen (Aerospace) Airglow flux 14 day movies, at wavelength LBH1 in North Polar Projection - Andrew Christensen (Aerospace) Airglow flux 14 day movies, at wavelength LBH1 in South Polar Projection - Andrew Christensen (Aerospace) Airglow flux 14 day movies, at wavelength LBH2 in Mercator Projection - Andrew Christensen (Aerospace) Airglow flux 14 day movies, at wavelength LBH2 in North Polar Projection - Andrew Christensen (Aerospace) Airglow flux 14 day movies, at wavelength LBH2 in South Polar Projection - Andrew Christensen (Aerospace) Airglow fluxes at 5 wavelengths bands - Andrew Christensen (Aerospace) Electron Density Profiles - Andrew Christensen (Aerospace)
-
H Ly-alpha (1216 A) log10 Intensity North Polar Projection - Pre-generated animated gif files
-
H Ly-alpha (1216 A) log10 Intensity South Polar Projection - Pre-generated animated gif files
-
H Ly-alpha (1216 A) log10 Intensity Mercator - Pre-generated animated gif files
-
H Ly-alpha (1304 A) log10 Intensity Mercator - Pre-generated animated gif files
-
H Ly-alpha (1304 A) log10 Intensity North Polar Pojection - Pre-generated animated gif files
-
H Ly-alpha (1304 A) log10 Intensity South Polar Pojection - Pre-generated animated gif files
-
H Ly-alpha (1356 A) log10 Intensity Mercator - Pre-generated animated gif files
-
H Ly-alpha (1356 A) log10 Intensity North Polar Projection - Pre-generated animated gif files
-
H Ly-alpha (1356 A) log10 Intensity South Polar Projection - Pre-generated animated gif files
-
LBH1 (1400-1500 A) log10 Intensity Mercator - Pre-generated animated gif files
-
LBH1 (1400-1500 A) log10 Intensity North Polar Projection - Pre-generated animated gif files
-
LBH1 (1400-1500 A) log10 Intensity South Polar Projection - Pre-generated animated gif files
-
LBH2 (1650-1800 A) log10 Intensity Mercator - Pre-generated animated gif files
-
LBH2 (1650-1800 A) log10 Intensity North Polar Pojection - Pre-generated animated gif files
-
LBH2 (1650-1800 A) log10 Intensity South Polar Pojection - Pre-generated animated gif files
-
[Mercator Projection by Orbit, Log10 Scaling] H Ly-alpha (1216 A) Intensities [Plots/CDFs ONLY]
-
- - - - -> O (1304 A)
-
- - - - -> O (1356 A)
-
- - - - -> LBH1 (1400-1500 A)
-
- - - - -> LBH2 (1650-1800 A)
-
[Mercator Projection by Orbit, Linear Scaling] H Ly-alpha (1216 A) Intensities [Plots/CDFs ONLY]
-
- - - - -> O (1304 A)
-
- - - - -> O (1356 A)
-
- - - - -> LBH1 (1400-1500 A)
-
- - - - -> LBH2 (1650-1800 A)
-
[Movie, Mercator Projection by Orbit, Log10 Scaling] H Ly-alpha (1216 A) Intensities
-
- - - - -> O (1304 A)
-
- - - - -> O (1356 A)
-
- - - - -> LBH1 (1400-1500 A)
-
- - - - -> LBH2 (1650-1800 A)
-
[Movie, Mercator Projection by Orbit, Linear Scaling] H Ly-alpha (1216 A)
-
- - - - -> O (1304 A)
-
- - - - -> O (1356 A)
-
- - - - -> LBH1 (1400-1500 A)
-
- - - - -> LBH2 (1650-1800 A)
-
[North Polar Projection by Orbit, Log10 Scaling] H Ly-alpha (1216 A) Intensities [Plot/CDFs ONLY]
-
- - - - -> O (1304 A)
-
- - - - -> O (1356 A)
-
- - - - -> LBH1 (1400-1500 A)
-
- - - - -> LBH2 (1650-1800 A)
-
[North Polar Projection by Orbit, Linear Scaling] H Ly-alpha (1216 A) Intensities [Plots/CDFs ONLY]
-
- - - - -> O (1304 A)
-
- - - - -> O (1356 A)
-
- - - - -> LBH1 (1400-1500 A)
-
- - - - -> LBH2 (1650-1800 A)
-
[Movie, North Polar Projection by Orbit, Log10 Scaling] H Ly-alpha (1216 A) Intensities
-
- - - - -> O (1304 A)
-
- - - - -> O (1356 A)
-
- - - - -> LBH1 (1400-1500 A)
-
- - - - -> LBH2 (1650-1800 A)
-
[Movie, North Polar Projection by Orbit, Linear Scaling] H Ly-alpha (1216 A) Intensities
-
- - - - -> O (1304 A)
-
- - - - -> O (1356 A)
-
- - - - -> LBH1 (1400-1500 A)
-
- - - - -> LBH2 (1650-1800 A)
-
[South Polar Projection by Orbit, Log10 Scaling] H Ly-alpha (1216 A) Intensities [Plots/CDFs ONLY]
-
- - - - -> O (1304 A)
-
- - - - -> O (1356 A)
-
- - - - -> LBH1 (1400-1500 A)
-
- - - - -> LBH2 (1650-1800 A)
-
[South Polar Projection by Orbit, Linear Scaling] H Ly-alpha (1216 A) Intensities [Plots/CDFs ONLY]
-
- - - - -> O (1304 A)
-
- - - - -> O (1356 A)
-
- - - - -> LBH1 (1400-1500 A)
-
- - - - -> LBH2 (1650-1800 A)
-
[Movie, South Polar Projection by Orbit, Log10 Scaling] H Ly-alpha (1216 A) Intensities
-
- - - - -> O (1304 A)
-
- - - - -> O (1356 A)
-
- - - - -> LBH1 (1400-1500 A)
-
- - - - -> LBH2 (1650-1800 A)(movie)
-
[Movie, South Polar Projection by Orbit, Linear Scaling] H Ly-alpha (1216 A) Intensities
-
- - - - -> O (1304 A)
-
- - - - -> O (1356 A)
-
- - - - -> LBH1 (1400-1500 A)
-
- - - - -> LBH2 (1650-1800 A)(movie)
-
[Intensities for all Across-Track Positions, Log10 Scaling] H Ly-alpha (1216 A)
-
- - - - -> O (1304 A)
-
- - - - -> O (1356 A)
-
- - - - -> LBH1 (1400-1500 A)
-
- - - - -> LBH2 (1650-1800 A)
-
[Intensities for all Across-Track Positions, Linear Scaling] H Ly-alpha (1216 A)
-
- - - - -> O (1304 A)
-
- - - - -> O (1356 A)
-
- - - - -> LBH1 (1400-1500 A)
-
- - - - -> LBH2 (1650-1800 A)
-
[Intensities for 7 Across-Track Positions, Linear Scaling] H Ly-alpha (1216 A)
-
- - - - -> O (1304 A)
-
- - - - -> O (1356 A)
-
- - - - -> LBH1 (1400-1500 A)
-
- - - - -> LBH2 (1650-1800 A)
-
Nadir geographic latitude of GUVI sweep as function of time (plot)
-
Nadir geographic longitude of GUVI sweep as function of time (plot)
-
Nadir geomagnetic latitude of GUVI sweep as function of time (plot)
-
Nadir geomagnetic longitude of GUVI sweep as function of time (plot)
-
[DO NOT USE] Detector as function of time
-
[DO NOT USE] Slit as function of time
-
TIME AXIS LABEL: Nadir geographic latitude of GUVI sweep
-
TIME AXIS LABEL: Nadir geographic longitude of GUVI sweep
-
TIME AXIS LABEL: Nadir geomagnetic latitude of GUVI sweep
-
TIME AXIS LABEL: Nadir geomagnetic longitude of GUVI sweep
-
[SUPPORTING DATA, Mercator Projection by Orbit, Linear Scaing] Array of pixel center geographic latitude
-
- - - - -> Array of pixel center geographic longitude
-
- - - - -> Array of pixel center geomagnetic latitude
-
- - - - -> Array of pixel center geomagnetic longitude
-
- - - - -> Array of Pierce Point Altitudes
-
- - - - -> Array of Solar Zenith Angles
-
- - - - -> [DO NOT USE] Array of Data Quality Indicator (DQI) flags
-
- - - - -> [DO NOT USE] Array of DataRegion
-
[Errors in Intensities, Mercator Projection by Orbit, Linear Scaling] Systematic H Ly-alpha (1216 A)
-
- - - - -> Statitical H Ly-alpha (1216 A)
-
- - - - -> Systematic O (1304 A)
-
- - - - -> Statistical O (1304 A)
-
- - - - -> Systematic O (1356 A)
-
- - - - -> Statistical O (1356 A)
-
- - - - -> Systematic LBH1 (1400-1500 A)
-
- - - - -> Statistical LBH1 (1400-1500 A)
-
- - - - -> Systematic N2 LBH2 (1650-1800 A)
-
- - - - -> Statistical N2 LBH2 (1650-1800 A)
-
[UNRECTIFIED DATA AND ERRORS - NO PLOTS] Intensity1_unrectified
-
- - - - -> SystematicError1_unrectified
-
- - - - -> StatisticalError1_unrectified
-
- - - - -> Intensity2_unrectified
-
- - - - -> SystematicError2_unrectified
-
- - - - -> StatisticalError2_unrectified
-
- - - - -> Intensity3_unrectified
-
- - - - -> SystematicError3_unrectified
-
- - - - -> StatisticalError3_unrectified
-
- - - - -> Intensity4_unrectified
-
- - - - -> SystematicError4_unrectified
-
- - - - -> StatisticalError4_unrectified
-
- - - - -> Intensity5_unrectified
-
- - - - -> SystematicError5_unrectified
-
- - - - -> StatisticalError5_unrectified
-
Orbit Number
-
Volume emission rate (no mutual neutralization correction) for 23 channels
-
-----> VER (no correction) uncertainty - sigma for 23 channels
-
Volume emission rate (corrected) for 23 channels
-
-----> VER (corrected) uncertainty - sigma for 23 channels
-
Electron density profiles along orbit for 23 channels
-
-----> Electron density uncertainty - Sigma for 23 channels
-
Electron density at 100km
-
-----> at 200km
-
-----> at 300km
-
-----> at 400km
-
-----> at 500km
-
Density at F-layer maximum - NmF2 (Chapman layer)
-
-----> F-layer height - hmF2
-
-----> Topside scale height
-
-----> Uncertainty of density at F-layer maximum - sigma(NmF2)
-
-----> Uncertainty of F-layer height - sigma(hmF2)
-
-----> Uncertainty of topside scale height - sigma(H)
-
Geographic Latitude of profile [registered at ~300km]
-
-----> Longitude of profile
-
Geomagnetic (simple dipole) Latitude of profile [registered at ~300km]
-
-----> Longitude of profile
-
Geomagnetic AACGM Latitude of profile [registered at ~300km]
-
-----> Longitude of profile
-
Local Time
-
Earth radius at the given geographic latitude
-
H+ correction using IRI model (-1 if not used)
-
Atomic oxygen density profile from MSIS for 23 channels
-
Profile altitude for given channel
-
IR Radiances in 10 channels (1.27 to 17ym) from 0 to 150 km, Version 1.04, - James Russell III (Hampton University) IR Radiances in 10 channels (1.27 to 17ym) from 0 to 150 km, Version 1.07, - James Russell III (Hampton University) O3, CO2, H2O Mixing Ratios and O, O2, OH, NO Volume Emission Rates, also NMC Neutral Temp., Density, and Pressure, Version 1.06, - James Russell III (Hampton University) O3, CO2, H2O Mixing Ratios and O, O2, OH, NO Volume Emission Rates, also NMC Neutral Temp., Density, and Pressure, Version 1.07, - James Russell III (Hampton University)
-
Instrument scan mode (down=0, up=1)
-
Phase of day at Tangent Point (0=Day 1=Night 2=Twilight(85<solar zenith angle<95)),
-
Orbit phase at Tangent Point (0=Ascending 1=Descending)
-
Magnetic Ap index (daily)
-
Magnetic Kp index (3-hour)
-
Solar F10.7 index (daily)
-
Spacecraft latitude (scan-average)
-
---------> longitude
-
---------> altitude
-
Tangent point latitude (scan-average)
-
------------> longitude
-
------------> solar zenith angle
-
------------> Local Solar Time
-
Tangent point solar zenith angle vs tangent point height
-
------------> Local Solar Time vs tangent point height
-
Calibrated RADIANCE centered at 15.2um (C02-N) vs tangent point height
-
------------------> at 14.9 um (C02-W), filter technique 1
-
------------------> at 14.9 um (C02-W), filter technique 2
-
------------------> at 9.6 um (O3)
-
------------------> at 6.9 um (H2O)
-
------------------> at 5.3 um (NO)
-
------------------> at 4.3 um (C02)
-
------------------> at 2 um (OH)
-
------------------> at 1.6 um (OH-B)
-
------------------> at 1.27 um (O2)
-
Calibrated RADIANCE at 5.3 um (NO) at 80km [line plot]
-
------------------> at 5.3 um (NO) at 110km [line plot]
-
------------------> at 5.3 um (NO) at 140km [line plot]
-
------------------> at 4.3 um (C02) at 100km [line plot]
-
------------------> at 4.3 um (C02) at 140km [line plot]
-
NMC temperature vs geopotential height at tangent point (scan-average)
-
NMC geopotential height vs pressure at tangent point (scan-average)
-
Instrument scan mode (down=0, up=1)
-
Phase of day at Tangent Point (0=Day 1=Night 2=Twilight(85<solar zenith angle<95)),
-
Orbit phase at Tangent Point (0=Ascending 1=Descending)
-
Magnetic Ap index (daily)
-
Magnetic Kp index (3-hour)
-
Solar F10.7 index (daily)
-
Spacecraft latitude (scan-average)
-
---------> longitude
-
---------> altitude
-
Tangent point latitude (scan-average)
-
------------> longitude
-
------------> solar zenith angle
-
------------> Local Solar Time
-
Tangent point solar zenith angle vs tangent point height
-
------------> Local Solar Time vs tangent point height
-
Calibrated RADIANCE centered at 15.2um (C02-N) vs tangent point height
-
------------------> at 14.9 um (C02-W), filter technique 1
-
------------------> at 14.9 um (C02-W), filter technique 2
-
------------------> at 9.6 um (O3)
-
------------------> at 6.9 um (H2O)
-
------------------> at 5.3 um (NO)
-
------------------> at 4.3 um (C02)
-
------------------> at 2 um (OH)
-
------------------> at 1.6 um (OH-B)
-
------------------> at 1.27 um (O2)
-
Calibrated RADIANCE at 5.3 um (NO) at 80km [line plot]
-
------------------> at 5.3 um (NO) at 110km [line plot]
-
------------------> at 5.3 um (NO) at 140km [line plot]
-
------------------> at 4.3 um (C02) at 100km [line plot]
-
------------------> at 4.3 um (C02) at 140km [line plot]
-
NMC temperature vs geopotential height at tangent point (scan-average)
-
NMC geopotential height vs pressure at tangent point (scan-average)
-
Instrument scan mode (down=0, up=1)
-
Phase of day at Tangent Point (0=Day, 1=Night, 2=Twilight (85<solar zenith angle<95)),
-
Orbit phase at Tangent Point (0=Ascending 1=Descending)
-
Magnetic Ap index (daily)
-
Magnetic Kp index (3-hour)
-
Solar F10.7 index (daily)
-
Solar F10.7 index (81-day)
-
Zurich Sunspot Number [all fill]
-
Aurora Flag [all fill]
-
Spacecraft latitude (scan-average)
-
---------> longitude
-
---------> altitude
-
Tangent point latitude (average ) over lower part of scan
-
---------> latitude (average over upper part of scan
-
---------> longitude (lower average)
-
---------> longitude (upper average)
-
---------> solar zenith angle (lower average)
-
---------> solar zenith angle (upper average
-
---------> Local Solar Time (lower average
-
---------> Local Solar Time (upper average)
-
Tangent point solar zenith angle vs tangent point height (lower part of scan)
-
---------> solar zenith angle vs tangent point height (upper part of scan
-
---------> Local Solar Time vs tangent point height (lower)
-
---------> Local Solar Time vs tangent point height (upper)
-
Elevation angle (lower part of scan)
-
---------> upper part of scan
-
Geopotential height at tangent point
-
---------> Pressure
-
---------> Kinetic temperature
-
---------> Neutral density
-
Mixing Ratios (MR): -> O3 (9.6um) MR vs tangent point height
-
---------> O3 (1.27um) MR vs tangent point height
-
-------------> O3 (1.27um) MR at 92km [line plot]
-
---------> H2O MR vs tangent point height [all fill]
-
---------> CO2 MR vs tangent point height
-
---------> O MR vs tangent point height
-
---------> H MR vs tangent point height
-
Volume Emission Rates (VER): -> O2(1delta) VER vs tangent point height
-
--------------> filtered (actual measurement with SABER's spectral bandpass for this line)
-
---------------> unfiltered at 92km [line plot]
-
---------> OH (1.6um) VER vs tangent point height
-
---------------> filtered
-
---------------> unfiltered at 85km [line plot]
-
---------> OH (2.0 um) VER vs tangent point height
-
---------------> filtered
-
------------------> unfiltered at 85km [lineplot]
-
---------> NO VER (upper part of scan) vs tangent point height
-
---------------> filtered (upper)
-
---------------> unfiltered (lower)
-
---------------> filtered (lower)
-
---------------> unfiltered at 120km [line plot]
-
Instrument scan mode (down=0, up=1)
-
Phase of day at Tangent Point (0=Day, 1=Night, 2=Twilight (85<solar zenith angle<95)),
-
Orbit phase at Tangent Point (0=Ascending 1=Descending)
-
Magnetic Ap index (daily)
-
Magnetic Kp index (3-hour)
-
Solar F10.7 index (daily)
-
Solar F10.7 index (81-day)
-
Zurich Sunspot Number [all fill]
-
Aurora Flag [all fill]
-
Spacecraft latitude (scan-average)
-
---------> longitude
-
---------> altitude
-
Tangent point latitude (average ) over lower part of scan
-
---------> latitude (average over upper part of scan
-
---------> longitude (lower average)
-
---------> longitude (upper average)
-
---------> solar zenith angle (lower average)
-
---------> solar zenith angle (upper average
-
---------> Local Solar Time (lower average
-
---------> Local Solar Time (upper average)
-
Tangent point solar zenith angle vs tangent point height (lower part of scan)
-
---------> solar zenith angle vs tangent point height (upper part of scan
-
---------> Local Solar Time vs tangent point height (lower)
-
---------> Local Solar Time vs tangent point height (upper)
-
Elevation angle (lower part of scan)
-
---------> upper part of scan
-
Geopotential height at tangent point
-
---------> Pressure
-
---------> Kinetic temperature
-
---------> Neutral density
-
Mixing Ratios (MR): -> O3 (9.6um) MR vs tangent point height
-
---------> O3 (1.27um) MR vs tangent point height
-
-------------> O3 (1.27um) MR at 92km [line plot]
-
---------> H2O MR vs tangent point height [all fill]
-
---------> CO2 MR vs tangent point height
-
---------> O MR vs tangent point height
-
---------> H MR vs tangent point height
-
Volume Emission Rates (VER): -> O2(1delta) VER vs tangent point height
-
--------------> filtered (actual measurement with SABER's spectral bandpass for this line)
-
---------------> unfiltered at 92km [line plot]
-
---------> OH (1.6um) VER vs tangent point height
-
---------------> filtered
-
---------------> unfiltered at 85km [line plot]
-
---------> OH (2.0 um) VER vs tangent point height
-
---------------> filtered
-
------------------> unfiltered at 85km [lineplot]
-
---------> NO VER (upper part of scan) vs tangent point height
-
---------------> filtered (upper)
-
---------------> unfiltered (lower)
-
---------------> filtered (lower)
-
---------------> unfiltered at 120km [line plot]
-
Solar irradiances 0.1 - 194 nm, Version 11 - Tom Woods (LASP/CU)
-
Zonal and meridional winds at 60 to 180 km, version 0307, - Timothy Killeen (NCAR)
-
Zonal wind at 75, 80, 85, 90, 95, and 100 km, Ascending orbit phase, Cold side
-
- - - - - -> Ascending, Warm side
-
- - - - - -> Descending, Cold side
-
- - - - - -> Descending, Warm side
-
Meridional wind at 75, 80, 85, 90, 95, and 100 km, Ascending orbit phase, Cold Side
-
- - - - - -> Ascending, Warm side
-
- - - - - -> Descending, Cold side
-
- - - - - -> Descending, Warm side
-
Zonal wind profiles (velocity as function of time and altitude), Ascending orbit phase, Cold side
-
- - - - - -> Ascending, Warm side
-
- - - - - -> Descending, Cold side
-
- - - - - -> Descending, Warm side
-
- -> Zonal wind variance profiles, Ascending orbit phase, Cold side
-
- - - - - -> Ascending, Warm side
-
- - - - - -> Descending, Cold side
-
- - - - - -> Descending, Warm side
-
Meridional wind profiles, (velocity as a function of time and altitude), Ascending orbit phase, Cold side
-
- - - - - -> Ascending, Warm side
-
- - - - - -> Descending, Cold side
-
- - - - - -> Descending, Warm side
-
- -> Meridional wind variance profiles Ascending orbit phase, Cold side
-
- - - - - -> Ascending, Warm side
-
- - - - - -> Descending, Cold side
-
- - - - - -> Descending, Warm side
-
Wind vector map, 80 km, Cylindrical projection, Ascending orbit phase, Cold side
-
- - - - - -> Ascending, Warm side
-
- - - - - -> Descending, Cold side
-
- - - - - -> Descending, Warm side
-
- -> Transverse Mercator projection, Ascending orbit phase, Cold side
-
- - - - - -> Ascending, Warm side
-
- - - - - -> Descending, Cold side
-
- - - - - -> Descending, Warm side
-
- -> MOVIE: Cylindrical projection, Ascending orbit phase, Cold side
-
- - - - - -> Ascending, Warm side
-
- - - - - -> Descending, Cold side
-
- - - - - -> Descending, Warm side
-
- -> MOVIE: Transverse Mercator projection, Ascending orbit phase, Cold side
-
- - - - - -> Ascending, Warm side
-
- - - - - -> Descending, Cold side
-
- - - - - -> Descending, Warm side
-
Wind vector map, 90 km, Cylindrical projection, Ascending orbit phase, Cold side
-
- - - - - -> Ascending, Warm side
-
- - - - - -> Descending, Cold side
-
- - - - - -> Descending, Warm side
-
- -> Transverse Mercator projection, Ascending orbit phase, Cold side
-
- - - - - -> Ascending, Warm side
-
- - - - - -> Descending, Cold side
-
- - - - - -> Descending, Warm side
-
- -> MOVIE: Cylindrical projection, Ascending orbit phase, Cold side
-
- - - - - -> Ascending, Warm side
-
- - - - - -> Descending, Cold side
-
- - - - - -> Descending, Warm side
-
- -> MOVIE: Transverse Mercator projection, Ascending orbit phase, Cold side
-
- - - - - -> Ascending, Warm side
-
- - - - - -> Descending, Cold side
-
- - - - - -> Descending, Warm side
-
Wind vector map, 100 km, Cylindrical projection, Ascending orbit phase, Cold side
-
- - - - - -> Ascending, Warm side
-
- - - - - -> Descending, Cold side
-
- - - - - -> Descending, Warm side
-
- -> Transverse Mercator projection, Ascending orbit phase, Cold side
-
- - - - - -> Ascending, Warm side
-
- - - - - -> Descending, Cold side
-
- - - - - -> Descending, Warm side
-
- -> MOVIE: Cylindrical projection, Ascending orbit phase, Cold side
-
- - - - - -> Ascending, Warm side
-
- - - - - -> Descending, Cold side
-
- - - - - -> Descending, Warm side
-
- -> MOVIE: Transverse Mercator projection, Ascending orbit phase, Cold side
-
- - - - - -> Ascending, Warm side
-
- - - - - -> Descending, Cold side
-
- - - - - -> Descending, Warm side
-
Geodetic latitude, Ascending orbit phase, Cold Side
-
- - - - - -> Ascending, Warm side
-
- - - - - -> Descending, Cold side
-
- - - - - -> Descending, Warm side
-
- -> Geodetic East Longitude, Ascending orbit phase, Cold side
-
- - - - - -> Ascending, Warm side
-
- - - - - -> Descending, Cold side
-
- - - - - -> Descending, Warm side
-
- -> Solar Zenith Angle (SZA), Ascending orbit phase, Cold side
-
- - - - - -> Ascending, Warm side
-
- - - - - -> Descending, Cold side
-
- - - - - -> Descending, Warm side
-
- -> Local Solar Time (LST)Ascending orbit phase, Cold side
-
- - - - - -> Ascending, Warm side
-
- - - - - -> Descending, Cold side
-
- - - - - -> Descending, Warm side
-
- -> Magnetic Latitude, Ascending orbit phase, Cold side
-
- - - - - -> Ascending, Warm side
-
- - - - - -> Descending, Cold side
-
- - - - - -> Descending, Warm side
-
- -> Magnetic Longitude, Ascending orbit phase, Cold side
-
- - - - - -> Ascending, Warm side
-
- - - - - -> Descending, Cold side
-
- - - - - -> Descending, Warm side
-
DEF IMAGER LAD
-
TWINS1 - Spacecraft Attitude - D. McComas (Southwest Research Institute) TWINS1 - Spacecraft Ephemeris - D. McComas (Southwest Research Institute) TWINS2 - Spacecraft Attitude - D. McComas (Southwest Research Institute) TWINS2 - Spacecraft Ephemeris - D. McComas (Southwest Research Institute)
-
TWINS Spacecraft 1 - Neutral-atom Spectrometer Level-1 Magnetospheric Images and Image Movies at Full (9 Energy Steps and 15 minute) Resolution - D. McComas (Southwest Research Institute) TWINS Spacecraft 2 - Neutral-atom Spectrometer Level-1 Magnetospheric Images and Image Movies at Full (9 Energy Steps and 15 minute) Resolution - D. McComas (Southwest Research Institute)
-
TWINS Spacecraft 1 - Lyman Alpha Detector Level-1 Geocorona Data - D. McComas & H. Fahr (SwRI & U. Bonn, respectively.) TWINS Spacecraft 2 - Lyman Alpha Detector Level-1 Geocorona Data - D. McComas & H. Fahr (SwRI & U. Bonn, respectively)
-
AT1 AT2 BAE BAI EPA GLG GRB HET HFT KET LET LF15 LF60 LM12 LM30 LMDE MAG_PLASMA PFRA PFRP R144 RARA RARP SWI VHM WART WFBA WFBP WFEA WFEP WRTD
-
Ulysses AT Tel 1 10 minute average. - R. McKibben (University of Chicago, USA)
-
Ulysses AT Tel 2 10 minute average. - R. McKibben (University of Chicago, USA)
-
Ulysses BAE 3-22 minute resolution. - D McComas (Southwest Research Institute, USA)
-
Ulysses BAI 1 hour average. - D McComas (Southwest Research Institute, USA) Ulysses BAI 4-8 minute average. - D McComas (Southwest Research Institute, USA)
-
Ulysses EPAC 1 hour average. - E Keppler (Max Planck Institut fur Aeronomie, )
-
Ulysses/SWICS full resolution matrix rate data - G. Gloeckler, J. Geiss (Department of Physics, University of Maryland, College Park, Maryland, USA; )
-
H+, protons, measured in triple coincidence
-
4He++, alpha particles, measured in triple coincidence
-
H+, protons, measured in double coincidence
-
4He+, singly charged helium, measured in double coincidence
-
Heavy ions with m/q>10, measured in double coincidence
-
C4+ and C5+ nominal, with spillover from N and O
-
C6+ nominal, with spillover from N and O
-
N5+ to N7+ nominal, with strong spillover from C and O
-
O6+ nominal, with spillover from C, N, and Ne
-
O7+ and O8+ nominal, with spillover from C, N, and Ne
-
Ne8+ nominal, with spillover from O and Mg
-
Mg6+ to Mg8+ nominal, with spillover from Si
-
Mg9+ to Mg11+ nominal, with spillover from O, Ne, and Si
-
Si5+ to Si8+ nominal, with spillover from Mg and S
-
Si9+ to Si12+ nominal, with spillover from Mg and S
-
S6+ to S14+ nominal, with spillover from Mg, Si, and Fe
-
Fe7+ to Fe9+ nominal, with spillover from Si and S
-
Fe10+ to Fe14+ nominal, with spillover from Si and S
-
Ulysses GRB 5 minute average. - K Hurley (University of California, Berkeley, USA)
-
Ulysses HET 10 minute average. - R. McKibben (University of Chicago, USA)
-
Proton count rate (5-92MeV), 5 channels (H1:5-14,H2:14-19,H3:24-31,H4:34-48,H5:68-92 MeV)
-
Electron count rate (1-10 MeV) in 3 channels (H6:1-3, H7:5-10, H8:3-5 MeV)
-
Proton count rate (>92 MeV), channel H9
-
Z>=3 count rate (26-173+ MeV/n), 4 channels (H10:26-36,H11:44-127,H12:127-173,H13:>173 MeV/n)
-
Ulysses HFT 10 minute average. - R. McKibben (University of Chicago, USA)
-
Z>=1 flux (mainly protons), 0.28-2.27 MeV, 3 channels: F1J(0) - F1J(2)
-
Z>=2 flux (mainly helium), 0.31-5.4 MeV/n, in 11 channels: F1J(3) to F1J(13)
-
Z>=2 flux (mainly oxygen), >= 0.34 MeV/n, in 2 channels: F1J(14) to F1J(15)
-
Z>=1 flux (mainly protons), 0.29-6.7 MeV,channels F2L: 0.29-6.7, F2H: 0.55-1.95 MeV
-
Z>=2 flux (mainly helium), 0.68-1.56 MeV/n, channel F3
-
Z>=3 flux (mainly carbon 0.8-4.9 MeV/n, oxygen 0.64-10.7 MeV/n), channel F4
-
Z>=12 flux (mainly sulphur 1.28-8.5, iron 0.8-34 MeV/n), channel F5
-
Z>=1 flux (mainly protons), in 32 sectors, channel F2S
-
Ulysses KET 10 minute average. - R. McKibben (University of Chicago, USA)
-
Proton count rate (2.7-5.4 MeV) channel K1
-
Proton flux (5.4-23.1 MeV) in 8 sectors, channels K21 - K28
-
Proton count rate (5.4-2100+ MeV), in 5 channels: P4, K3, K34, K12, K10
-
Helium count rate (6-2100+ MeV) in 5 channels: K2, K33, K29, K31, K30
-
Electron count rate (2.5-7 MeV) in 8 sectors, channels K13 - K20
-
Electron count rate (2.5-170+ MeV) (E4:2.5-7, K11:7-170, K32:>170 MeV)
-
Single detector counts in 6 channels (D10, D20, C10, C20, S20, A01)
-
Ulysses LET 10 minute average. - R. McKibben (University of Chicago, USA)
-
Ulysses HI-SCALE LEFS150 (LF15) 1 hour average. - L. Lanzerotti (Bell Laboratories, USA)
-
Ulysses HI-SCALE LEFS60 (LF60) 1 hour average. - L. Lanzerotti (Bell Laboratories, USA)
-
Ulysses HI-SCALE LEMS120 (LM12) 1 hour average. - L. Lanzerotti (Bell Laboratories, USA)
-
Ulysses HI-SCALE LEMS30 (LM30) 1 hour average. - L. Lanzerotti (Bell Laboratories, USA)
-
Ulysses HI-SCALE LEMSDE (LMDE) 1 hour average. - L. Lanzerotti (Bell Laboratories, USA)
-
Ulysses merged hourly magnetic field, plasma and ephermis data - Dr. A. Balogh (magnetic field), Dr. John L. Phillips (plasma) (Imperial College, London, UK, )
-
Ulysses PFRA 10 minute average data. - R MacDowall (NASA Goddard Spaceflight Center)
-
Ulysses PFRP 10 minute peak data. - R MacDowall (NASA Goddard Spaceflight Center)
-
Ulysses R144 144 second resolution. - R MacDowall (NASA Goddard Spaceflight Center)
-
Ulysses RARA 10 minute average. - R MacDowall (NASA Goddard Spaceflight Center)
-
Ulysses RARP 10 minute average. - R MacDowall (NASA Goddard Spaceflight Center)
-
Ulysses SWI 3.5 hour average. - J Geiss, G Gloeckler (International Space Science Institute, )
-
Density ratio to O6+ of 8 species (Alphas,C6+,O6+,Ne8+,Mg10+,Si9+,S10+,Fe11+)
-
Velocity of 8 species (Alphas,C6+,O6+,Ne8+,Mg10+,Si9+,S10+,Fe11+)
-
Temperature of 8 species (Alphas,C6+,O6+,Ne8+,Mg10+,Si9+,S10+,Fe11+)
-
Ulysses VHM 1 hour average. - A. Balogh (Imperial College, London, UK) Ulysses VHM 1 minute. - A. Balogh (Imperial College, London, UK) Ulysses VHM 1 second. - A. Balogh (Imperial College, London, UK)
-
Ulysses HI-SCALE WART 1 hour average. - L. Lanzerotti (Bell Laboratories, USA)
-
Ulysses WFBA 10 minute average. - R MacDowall (NASA Goddard Spaceflight Center)
-
Ulysses WFBP 10 minute average. - R MacDowall (NASA Goddard Spaceflight Center)
-
Ulysses WFEA 10 minute average. - R MacDowall (NASA Goddard Spaceflight Center)
-
Ulysses WFEP 10 minute average. - R MacDowall (NASA Goddard Spaceflight Center)
-
Ulysses HI-SCALE WARTD (WRTD) 1 hour average. - L. Lanzerotti (Bell Laboratories, USA)
-
MAG_PLASMA
-
Merged hourly magnetic field, plasma and ephermis data - Norman F. Ness (Bartol Research Institute) Voyager-2 merged hourly magnetic field, plasma and ephermis data - N. Ness (MAG) and J. Richardson (PLS) (Bartol, MIT)
-
3DP EPA IMF and Plasma data IMF, Plasma, Indices, Energetic Proton Flux MFI SMS SWE WAV merged magnetic field and plasma data from cohoweb
-
Ion moments (computed on-board) @ 3 second (spin) resolution (version 3), PESA LOW, Wind 3DP - R. Lin (UC Berkeley) Electron energy-angle distributions @ 24 sec, 3 ev - 30 keV, EESA LOW, Wind 3DP - R. Lin (UC Berkeley) Electron omnidirectional fluxes 3 eV - 30 keV,EESA LOW, Wind 3DP - R. Lin (UC Berkeley) Ion omnidirectional fluxes and moments @ 24 second resolution, PESA LOW, Wind 3DP - R. Lin (UC Berkeley) Wind 3-D Plasma Analyzer, Key Parameters - R. Lin (UC Berkeley)
-
[Values are fill 5/20/2009-5/11/2010; noisy 3/8/2012 04:37 to 5/15/2012 22:45] Proton number density
-
[Values are noisy 5/15/2009-5/11/2010 and 3/8/2012 04:37 to 5/15/2012 22:45] Proton velocity vector (GSE)
-
[Values are noisy 5/15/2009-5/11/2010 and 3/8/2012 04:37 to 5/15/2012 22:45] Residual Variance in Proton Velocity (6 components in instrument coords)
-
[Values are noisy 5/15/2009-5/11/2010 and 3/8/2012 04:37 to 5/15/2012 22:45] Proton temperature
-
[Values are fill for 5/20/2009-5/11/2010; noisy 3/8/2012 04:37 to 5/15/2012 22:45] Alpha number density
-
[Values are noisy 5/15/2009-5/11/2010 and 3/8/2012 04:37 to 5/15/2012 22:45] Alpha velocity vector (GSE)
-
[Values are noisy 5/15/2009-5/11/2010 and 3/8/2012 04:37 to 5/15/2012 22:45] Residual Variance in Alpha Velocity (6 components in instrument coords)
-
[Values are noisy 5/15/2009-5/11/2010 and 3/8/2012 04:37 to 5/15/2012 22:45] Alpha temperature
-
Energy range of moments computation
-
Gap flag (0=no gap, 1=gap)
-
Data quality flag (1=good, 0=bad)
-
Unix Time (since 1970/01/01)
-
Electron flux as function of 15 energies and 8 pitch angles
-
[FLUX] Electron flux at 5 select energies as function of 8 pitch angles (spectrogram)
-
[FLUX] Electron flux at 8 pitch angles as function of 15 energies (spectrogram)
-
--------- [ENERGY] (Slightly) time-varying electron energy for 15 channels
-
--------- [PANGLE] Time-varying pitch angle for 8 angles
-
[VSW] SW Velocity vector (from ions and ground-based processing)
-
[MAGF] Vector magnetic field
-
[FLUX] Electron differential flux as function of time-varying energy in range 5-1200 eV [spectrogram]
-
[FLUX] Electron differential flux as function of time-varying energy in range 5-1200 eV [stacked plot]
-
----------> [FLUX] Electron differential flux as function of time-varying energy in range 5-1200 eV [simple time series]
-
----------> [ENERGY] (Occasionally) Time-varying electron energies (center of 40% wide energy band)
-
UNIX time; seconds since January 1, 1970
-
[FLUX] Ion flux, 14 energy channels approximately 0.6-10 keV [spectrogram]
-
[DO NOT USE] [FLUX] Ion flux, 14 energy channels approximately 0.6-10 keV [stacked plot]
-
-----> [ENERGY] Time-variable energy in each of 14 channels
-
[P.MAGF] Magnetic field vector, in GSE cartesian components
-
[P.DENSITY] Proton number density
-
[P.AVGTEMP] Average proton temperature
-
[P.VTHERMAL] Proton thermal speed
-
[P.VELOCITY] Proton Flow Velocity, GSE cartesian
-
[P.PTENS] Proton Pressure Tensor
-
[P.VALID] Proton Validity flag; 1=OK
-
[P.VEL_MAG] Proton flow velocity; magnitude
-
[P.VEL_TH] Proton flow velocity; latitude
-
[P.VELPHI] Proton flow velocity; longitude
-
[A.DENSITY] Alpha number density
-
[A.AVGTEMP] Average alpha temperature
-
[A.VTHERMAL] Alpha thermal speed
-
[A.VELOCITY] Alpha flow velocity, cartesian
-
[A.PTENS] Alpha pressure tensor
-
[A.VALID] Alpha validity flag; 1=OK
-
[A.VEL_MAG] Alpha flow velocity; magnitude
-
[A.VEL_TH] Alpha flow velocity, latitude
-
[A.VEL_PHI] Alpha flow velocity, longitude
-
Wind s/c position in GSE coords, 3 comp
-
Wind s/c velocity in GSE coord., 3 comp.
-
Electron Flux at 7 energies (0.1-225 keV)
-
electron density, scalar
-
electron velocity in GSE coord, 3 comp.
-
electron temperature, scalar
-
electron heat flux along magnetic field direction
-
Ion flux at 7 energies (.07-400 keV)
-
ion density, scalar
-
ion velocity in GSE coord., 3 comp.
-
ion temperature, scalar
-
Wind Energetic Particle Acceleration Composition Transport, Key Parameters - T. Von Rosenvinge (NASA/GSFC)
-
OMNI Combined, Definitive, 1AU 1minute IMF and Plasma data - J.H. King, N. Papatashvilli (AdnetSystems, NASA GSFC)
-
OMNI ID code for IMF source spacecraft (see OMNI documentation link for codes)
-
OMNI ID code for IP plasma source spacecraft (see OMNI documentation link for codes)
-
Number of fine time scale points in IMF averages
-
Number of fine time scale points in plasma averages
-
Percent interpolated
-
Timeshift (seconds)
-
RMS Timeshift (seconds)
-
RMS, Phase front normal (nT)
-
Time between observations (seconds)
-
Magnitude of avg. field vector (nT) (last currently-available OMNI B-field data Dec 31, 2012)
-
Bx (nT), GSE
-
By (nT), GSE
-
Bz (nT), GSE
-
By (nT), GSM, determined from post-shift GSE components
-
Bz (nT), GSM, determined from post-shift GSE components
-
RMS SD B scalar (nT)
-
RMS SD field vector (nT)
-
Flow Speed (km/s), GSE
-
Vx Velocity (km/s), GSE
-
Vy Velocity (km/s), GSE
-
Vz Velocity (km/s), GSE
-
Proton density (n/cc) (last currently-available OMNI plasma data Dec 31, 2012)
-
Temperature (K)
-
Flow pressure (nPa)
-
Electric Field (mV/m)
-
Plasma beta
-
Alfven mach number
-
1AU IP Magnetosonic mach number
-
X s/c (Re), GSE
-
Y s/c (Re), GSE
-
Z s/c (Re), GSE
-
Bow Shock Nose (Re) location, X, GSE
-
Bow Shock Nose (Re) location, Y, GSE
-
Bow Shock Nose (Re) location, Z, GSE
-
AE - 1-minute AE-index, from WDC Kyoto (95/001-12/366)
-
AL - 1-minute AL-index, from WDC Kyoto (95/001-12/366)
-
AU - 1-minute AU-index,from WDC Kyoto (95/001-12/366)
-
SYM/D - 1-minute SYM/D index,from WDC Kyoto (95/001-12/366)
-
SYM/H - 1-minute SYM/H index,from WDC Kyoto (95/001-12/366)
-
ASY/D - 1-minute ASY/D index,from WDC Kyoto (95/001-12/366)
-
ASY/H - 1-minute ASY/H index,from WDC Kyoto (95/001-12/366)
-
PC - 1-minute Polar Cap index (North, Thule station), from Danish Meteorological Institute (Final 95/001-08/366, Preliminary 09/001-12/366)
-
OMNI Combined, Definitive, 1AU 5minute IMF and Plasma data - J.H. King, N. Papatashvilli (AdnetSystems, NASA GSFC) OMNI Combined, Definitive, 1AU Hourly IMF, Plasma, Energetic Proton Fluxes, and Solar and Magnetic Indices - J.H. King, N. Papatashvilli (ADNET, NASA GSFC)
-
OMNI ID code for IMF source spacecraft (see OMNI documentation link for codes)
-
OMNI ID code for IP plasma source spacecraft (see OMNI documentation link for codes)
-
Number of fine time scale points in IMF averages
-
Number of fine time scale points in plasma averages
-
Percent interpolated
-
Timeshift (seconds)
-
RMS Timeshift (seconds)
-
Time between observations (seconds)
-
Magnitude of avg. field vector (nT) (last currently-available OMNI B-field data Dec 31, 2012)
-
Bx (nT), GSE
-
By (nT), GSE
-
Bz (nT), GSE
-
By (nT), GSM, determined from post-shift GSE components
-
Bz (nT), GSM, determined from post-shift GSE components
-
RMS SD B scalar (nT)
-
RMS SD field vector (nT)
-
Flow Speed (km/s), GSE
-
Vx Velocity (km/s), GSE
-
Vy Velocity (km/s), GSE
-
Vz Velocity (km/s), GSE
-
Proton density (n/cc) (last currently-available OMNI plasma data Dec 31, 2012)
-
Temperature (K)
-
Flow pressure (nPa)
-
Electric Field (mV/m)
-
Plasma beta
-
Alfven mach number
-
1AU IP Magnetosonic mach number
-
X s/c (Re), GSE
-
Y s/c (Re), GSE
-
Z s/c (Re), GSE
-
Bow Shock Nose (Re) location, X, GSE
-
Bow Shock Nose (Re) location, Y, GSE
-
Bow Shock Nose (Re) location, Z, GSE
-
AE - 5-minute AE-index, from WDC Kyoto (95/001-12/366)
-
AL - 5-minute AL-index, from WDC Kyoto (95/001-12/366)
-
AU - 5-minute AU-index,from WDC Kyoto (95/001-12/366)
-
SYM/D - 5-minute SYM/D index,from WDC Kyoto (95/001-12/366)
-
SYM/H - 5-minute SYM/H index,from WDC Kyoto (95/001-12/366)
-
ASY/D - 5-minute ASY/D index,from WDC Kyoto (95/001-12/366)
-
ASY/H - 5-minute ASY/H index,from WDC Kyoto (95/001-12/366)
-
PC - 5-minute Polar Cap index (North, Thule station), from Danish Meteorological Institute (Final 95/001-08/366, Preliminary 09/001-12/366)
-
Proton flux >10 MeV (1/(SQcm-ster-s)) (all fluxes from GOES 1995/001 - 2012/366)
-
Proton flux >30 MeV (1/(SQcm-ster-s))
-
Proton flux >60 MeV (1/(SQcm-ster-s))
-
Bartels Rotation Number
-
OMNI ID code for IMF source spacecraft (see OMNI documentation link for codes)
-
OMNI ID code for IP plasma source spacecraft (see OMNI documentation link for codes)
-
# fine time scale IMF points
-
# fine time scale plasma points
-
1AU IP Average B Field Magnitude, nT, (last currently-available OMNI B-field data Dec 31, 2012)
-
1AU IP Magnitude of average field vector (nT)
-
1AU IP Latitude/Theta of average B vector (deg)
-
1AU IP Longitude/Phi of average B vector (deg)
-
1AU IP Bx (nT), GSE
-
1AU IP By (nT), GSE
-
1AU IP Bz (nT), GSE
-
1AU IP By (nT), GSM
-
1AU IP Bz (nT), GSM
-
RMS deviation of average B magnitude (nT)
-
RMS deviation of magnitude of the average vector field (nT)
-
RMS deviation Bx (nT), GSE
-
RMS deviation By (nT), GSE
-
RMS deviation Bz (nT), GSE
-
1AU IP Plasma Temperature, deg K, (last currently-available OMNI plasma data Jan 30, 2013)
-
1AU IP Ion number density (per cc)
-
1AU IP plasma flow speed (km/s)
-
1AU IP plasma flow direction longitude (deg), phi
-
1AU IP plasma flow direction latitude (deg), theta
-
1AU IP Alpha/proton ratio
-
1AU IP Flow pressure (nPa)
-
RMS deviation of plasma temperature (deg k)
-
RMS deviation of ion number density (per cc)
-
RMS deviation in plasma flow velocity (km/s)
-
RMS deviation in plasma flow direction longitude (deg), phi
-
RMS deviation in plasma flow direction latitude (deg), theta
-
RMS deviation alpha/proton ratio
-
1AU IP Electric Field (mV/m)
-
1AU IP Plasma beta
-
1AU IP Alfven mach number
-
1AU IP Magnetosonic mach number
-
1AU Proton flux > 1 MeV, 1/(SQcm-ster-s), (last currently-available OMNI proton fluxes 2013 Jan 30)
-
1AU Proton flux >2 MeV (1/(SQcm-ster-s))
-
1AU Proton flux >4 MeV (1/(SQcm-ster-s))
-
1AU Proton flux >10 MeV (1/(SQcm-ster-s))
-
1AU Proton flux >30 MeV (1/(SQcm-ster-s))
-
1AU Proton flux >60 MeV (1/(SQcm-ster-s))
-
Magnetospheric Contamination of 1AU Proton Flux code (6=No,<=5 see OMNI documentation)
-
Rz - Daily sunspot number, from NGDC (63/001-12/366)
-
F10.7 - Daily 10.7 cm solar radio flux, units: 10**(-22) Joules/second/square-meter/Hertz, from NGDC (63/001-12/366),
-
Kp - 3-hour Kp*10 (Kp=1-,1,1+ corresponds to 7,10,13), fromNGDC (63/001-12/366)
-
Dst - 1-hour Dst index (63/001-03/365), Provisional Dst (04/001-07/365), Quick-look Dst (07/001-13/025), from WDC Kyoto
-
AE - 1-hour AE-index (63/001-88/182), Provisional (89/060-12/335), from WDC Kyoto
-
ap - 3-hour ap-index (63/001-12/366), from NGDC
-
AL - 1-hour AL-index, from WDC Kyoto (63/001-88/182)
-
AU - 1-hour AU-index,from WDC Kyoto (63/001-88/182)
-
PC - 1-hour Polar Cap index (North, Thule station), from NGDC (Final 75/001-07/365, Preliminary 08/001-12/366)
-
Wind Magnetic Fields Investigation, High-resolution Definitive Data - A. Szabo (NASA/GSFC) Wind Magnetic Fields Investigation, Key Parameters - R. Lepping (NASA/GSFC) Wind Magnetic Fields Investigation: 3 sec, 1 min, and hourly Definitive Data. - A. Szabo (NASA/GSFC)
-
Solar Wind and Suprathermal Ion Composition Instrument, Key Parameters - G. Gloeckler (U of Maryland)
-
Average alpha velocity, scalar
-
Average alpha velocity, scalar, with error bars
-
Carbon/Oxygen abundance ratio, scalar
-
Carbon/Oxygen abundance ratio, scalar, with error bars
-
Carbon ionization temperature from C+6 & C+5, scalar
-
Carbon ionization temperature from C+6 & C+5, scalar, with error bars
-
Oxygen ionization temperature from O+7 & O+6, scalar
-
Oxygen ionization temperature from O+7 & O+6, scalar, with error bars
-
Uncertainity (+/-30%) in speed of solar wind, scalar
-
Uncertainty (+/-30%) in C/O abundance ratio, scalar
-
Uncertainty (+/- 10%) in C ionization temp from C+6 & C+5
-
Uncertainity (+/- 10%) in O ionization temp O+7 & O+6
-
Wind SWE (Solar Wind Experiment), 6 - 12 sec Solar Wind Electron Moments - K. Ogilvie (GSFC Code 692) Wind SWE (Solar Wind Experiment), Key Parameters - K. Ogilvie (NASA GSFC) Wind Solar Wind Experiment (SWE), 3 sec solar wind electron pitch-angle distribution averages - K. Ogilvie (NASA/GSFC) Wind Solar Wind Experiment (SWE), 3 sec solar wind electron pitch-angle distributions at 6-12 sec cadence - K. Ogilvie (NASA/GSFC) Wind Solar Wind Experiment (SWE), 9 sec solar wind electron moments at 12 sec cadence - K. Ogilvie (NASA/GSFC) Wind Solar Wind Experiment (SWE), 9 sec solar wind electron pitch-angle distribution averages - K. Ogilvie (NASA/GSFC) Wind Solar Wind Experiment (SWE), 9 sec solar wind electron pitch-angle distributions at 12 sec cadence - K. Ogilvie (NASA/GSFC) Wind Solar Wind Experiment, 92-sec Solar Wind Alpha and Proton Anisotropy Analysis - K. Ogilvie (NASA GSFC)
-
Electron Temperature, Te
-
Temperature anisotropy = Te_para / Te_perp
-
Electron average energy
-
Principle axis of pressure tensor - unit vector
-
Pressure tensor principle axis dot magnetic field unit vector
-
Electron heat flux magnitude
-
Electron heat flux elevation
-
Electron heat flux azimuth
-
Heat flux dot B unit vector
-
Spacecraft Position (GSE)
-
Electron bulk velocity - magnitude
-
Electron bulk velocity - elevation
-
Electron bulk velocity - azimuth
-
Electron density
-
Spacecraft Potential
-
Quality Flag, yet to be defined
-
major frame record number
-
Major frame spin number
-
Wind s/c position, 3 comp. in GSE coord.
-
Wind s/c position, 3 comp. in GSM coord.
-
Wind s/c radial distance to center of Earth, scalar
-
Velocity Quality Flag: 0=OK; 2 or 130 = caution; Other values NOT VALID
-
Proton Density Quality Flag: 0=OK; 2 or 130 = caution; Other values NOT VALID
-
Solar Wind Velocity in GSE coord., 3 comp.
-
Solar Wind Velocity in GSM coord., 3 comp.
-
Ion Bulk Flow vector in GSE coord., 3 comp. (speed, E/W flow, N/S flow)
-
Ion Bulk Flow Speed GSE coord.(log)
-
Solar Wind Most Probable Thermal Speed = sqrt(2kT/M), scalar
-
Solar Wind Proton Number Density, scalar (linear)
-
Solar Wind Proton Number Density, scalar (log)
-
Ion Dynamic Pressure (derived from mNV^2), scalar
-
Electron speed
-
--> Stack plot of Electron speed
-
Electron energy
-
--> Stack plot of Electron energy
-
Electron flux, parallel average
-
--> stack plot for all channels
-
--> stack plot for even channels
-
--> stack plot for odd channels
-
Electron flux, perpendicular average
-
--> stack plot for all channels
-
--> stack plot for even channels
-
--> stack plot for odd channels
-
Electron flux, anti-parallel average
-
--> stack plot for all channels
-
--> stack plot for even channels
-
--> stack plot for odd channels
-
Electron flux, omni-directional average
-
--> stack plot for all channels
-
--> stack plot for even channels
-
--> stack plot for odd channels
-
Electron speed
-
--> stack plot of all channels
-
Electron energy
-
--> stack plot of all channels, by energy
-
Electron pitch-angle distributions (6 degrees/bin), energy chanel 00 (time-varying energy value)
-
Electron pitch-angle distributions (6 degrees/bin), energy chanel 01 (time-varying energy value)
-
Electron pitch-angle distributions (6 degrees/bin), energy chanel 02 (time-varying energy value)
-
Electron pitch-angle distributions (6 degrees/bin), energy chanel 03 (time-varying energy value)
-
Electron pitch-angle distributions (6 degrees/bin), energy chanel 04 (time-varying energy value)
-
Electron pitch-angle distributions (6 degrees/bin), energy chanel 05 (time-varying energy value)
-
Electron pitch-angle distributions (6 degrees/bin), energy chanel 06 (time-varying energy value)
-
Electron pitch-angle distributions (6 degrees/bin), energy chanel 07 (time-varying energy value)
-
Electron pitch-angle distributions (6 degrees/bin), energy chanel 08 (time-varying energy value)
-
Electron pitch-angle distributions (6 degrees/bin), energy chanel 09 (time-varying energy value)
-
Electron pitch-angle distributions (6 degrees/bin), energy chanel 10 (time-varying energy value)
-
Electron pitch-angle distributions (6 degrees/bin), energy chanel 11 (time-varying energy value)
-
Electron pitch-angle distributions (6 degrees/bin), energy chanel 12 (time-varying energy value)
-
Electron pitch-angle distributions (6 degrees/bin), energy chanel 13 (time-varying energy value)
-
Electron pitch-angle distributions (6 degrees/bin), energy chanel 14 (time-varying energy value)
-
Electron pitch-angle distributions (6 degrees/bin), energy chanel 15 (time-varying energy value)
-
Electron spin-averaged flux, binned by energy channel
-
Ne Electron density
-
Ne core Electron density
-
Ue (GSE, 3 comp.) Electron bulk-velocity
-
Ue core (GSE, 3 comp.) Electron bulk-velocity
-
Pe (GSE, 6 comp.) Electron pressure-tensor
-
Te Electron total-temperature
-
Te core Electron total-temperature
-
We Electron average thermal-energy
-
We core Electron average thermal-energy
-
TePal Electron parallel-temperature
-
TePer Electron perpendicular-temperature
-
TePal core Electron parallel-temperature
-
TePer core Electron perpendicular-temperature
-
Aniso_e Electron temperature-anisotropy (TePer/TePal)
-
Aniso_e core Electron temperature-anisotropy (TePer_core/TePal_core)
-
Gyrtrp_e Electron gyrotropy
-
Electron flux, parallel average
-
--> stack plot for all channels, by speed
-
--> stack plot for even channels, by speed
-
--> stack plot for odd channels, by speed
-
--> stack plot for all channels, by energy
-
--> stack plot for even channels, by energy
-
--> stack plot for odd channels, by energy
-
Electron flux, perpendicular average
-
--> stack plot for all channels, by speed
-
--> stack plot for even channels, by speed
-
--> stack plot for odd channels, by speed
-
--> stack plot for all channels, by energy
-
--> stack plot for even channels, by energy
-
--> stack plot for odd channels, by energy
-
Electron flux, anti-parallel average
-
--> stack plot for all channels, by speed
-
--> stack plot for even channels, by speed
-
--> stack plot for odd channels, by speed
-
--> stack plot for all channels, by energy
-
--> stack plot for even channels, by energy
-
--> stack plot for odd channels, by energy
-
Electron flux, omni-directional average
-
--> stack plot for all channels, by speed
-
--> stack plot for even channels, by speed
-
--> stack plot for odd channels, by speed
-
--> stack plot for all channels, by energy
-
--> stack plot for even channels, by energy
-
--> stack plot for odd channels, by energy
-
Electron pitch-angle distributions (6 degrees/bin), energy channel 00 (19.34 eV, 2.60e+08 cm/s)
-
Electron pitch-angle distributions (6 degrees/bin), energy channel 01 (38.68 eV, 3.68e+08 cm/s
-
Electron pitch-angle distributions (6 degrees/bin), energy channel 02 (58.03 eV, 4.51e+08 cm/s)
-
Electron pitch-angle distributions (6 degrees/bin), energy channel 03 (77.37 eV, 5.21e+08 cm/s)
-
Electron pitch-angle distributions (6 degrees/bin), energy channel 04 (96.71 eV, 5.82e+08 cm/s)
-
Electron pitch-angle distributions (6 degrees/bin), energy channel 05 (116.1 eV, 6.38e+08 cm/s)
-
Electron pitch-angle distributions (6 degrees/bin), energy channel 06 (193.4 eV, 8.23e+08 cm/s)
-
Electron pitch-angle distributions (6 degrees/bin), energy channel 07 (290.1 eV, 1.00e+09 cm/s)
-
Electron pitch-angle distributions (6 degrees/bin), energy channel 08 (425.5 eV, 1.22e+09 cm/s)
-
Electron pitch-angle distributions (6 degrees/bin), energy channel 09 (580.3 eV, 1.42e+09 cm/s)
-
Electron pitch-angle distributions (6 degrees/bin), energy channel 10 (773.7 eV, 1.64e+09 cm/s)
-
Electron pitch-angle distributions (6 degrees/bin), energy channel 11 (1006 eV, 1.87e+09 cm/s)
-
Electron pitch-angle distributions (6 degrees/bin), energy channel 12 (1238 eV, 2.08e+09 cm/s)
-
Electron spin-averaged flux, binned by electron speed
-
Electron spin-averaged flux, binned by energy
-
This flag denotes the fit quality and encodes any contingencies in the ion VDF analysis (10=SW parameters OK)
-
---> year
-
---> Fractional day of year of start of spectrum (Noon on January 1 = 1.5)
-
Proton bulk speed
-
---> Proton bulk speed (w/ uncertainties)
-
---> 1-sigma uncertainty of the proton bulk speed
-
VX_GSE component of the proton vector velocity [km/s], from non-linear analysis
-
---> VX_GSE (with uncertainties)
-
---> 1-sigma uncertainty of VX_GSE
-
VY_GSE component of the proton vector velocity [km/s], from non-linear analysis
-
---> VY_GSE (with uncertainties)
-
---> 1-sigma uncertainty of VY_GSE
-
VZ_GSE component of the proton vector velocity [km/s], from non-linear analysis
-
---> VZ_GSE (with uncertainties)
-
---> 1-sigma uncertainty of VZ_GSE
-
Scalar [isotropic] proton thermal speed [km/s], from the trace of the anisotropic temperatures.
-
---> Scalar [isotropic] proton thermal speed (with uncertainties)
-
---> 1-sigma uncertainty in the proton thermal speed [km/s].
-
Proton thermal speed perpendicular to the magnetic field direction [km/s].
-
---> Proton thermal speed perpendicular (with uncertainties)
-
---> 1-sigma uncertainty in the perpendicular proton thermal speed [km/s].
-
Proton thermal speed parallel to the magnetic field direction [km/s].
-
---> Proton thermal speed parallel (with uncertainties)
-
---> 1-sigma uncertainty in the parallel proton thermal speed [km/s].
-
East-West GSE bulk Flow Angle [degrees]
-
---> East-West Flow Angle (with uncertainties)
-
---> 1-sigma uncertainty in the east-west flow angle
-
North-south GSE bulk flow angle [degrees]
-
---> North-south flow angle (with uncertainties)
-
---> 1-sigma uncertainty in north-south flow angle
-
Proton number density Np (n/cc) from non-linear analysis
-
---> Proton number density Np (log scale)
-
---> Proton number density Np (with uncertainties)
-
---> 1-sigma uncertainty in the proton density
-
Alpha bulk speed V (km/s) from non-linear analysis
-
---> Alpha bulk speed V (with uncertainties)
-
---> 1-sigma uncertainty in alpha V [km/s]
-
Alpha velocity component Vx (GSE, km/s) from non-linear analysis
-
---> Alpha velocity component Vx (with uncertainties)
-
---> 1-sigma uncertainty in alpha Vx [km/s]
-
Alpha velocity component Vy (GSE, km/s) from non-linear analysis
-
---> Alpha velocity component Vy (with uncertainties)
-
--->1-sigma uncertainty in alpha Vy [km/s]
-
Alpha velocity component Vz (GSE, km/s) from non-linear analysis
-
---> Alpha velocity component Vz (with uncertainties)
-
--->1-sigma uncertainty in alpha Vz [km/s]
-
Scalar [isotropic] alpha particle thermal speed [km/s].
-
---> Scalar [isotropic] alpha particle thermal speed [km/s] (with uncertainties)
-
---> 1-sigma uncertainty in alpha thermal speed [km/s].
-
Alpha particle thermal speed perpendicular to the magnetic field direction [km/s].
-
---> Alpha particle thermal speed perpendicular (with uncertainties)
-
---> 1-sigma uncertainty in the perpendicular alpha thermal speed [km/s].
-
Alpha particle thermal speed parallel to the magnetic field direction [km/s]
-
---> Alpha particle thermal speed parallel (with uncertainties)
-
---> 1-sigma uncertainty in the perpendicular alpha thermal speed [km/s].
-
Alpha number density Na (n/cc) from non-linear analysis
-
---> Alpha number density Na (log scale)
-
---> Alpha number density Na (with uncertainties)
-
---> 1-sigma uncertainty in the alpha density [n/cc]
-
Reduced chi-squared for this fit
-
---> Time that the peak charge flux was observed for each spectrum (in fractional day of year)
-
---> 1-sigma uncertainty in time of peak flux (in fractional day of year)
-
Proton bulk speed (km/s) from moment analysis
-
Proton velocity component Vx (GSE, km/s) from moment analysis
-
Proton velocity component Vy (GSE, km/s) from moment analysis
-
Proton velocity component Vz (GSE, km/s) from moment analysis
-
Proton thermal speed W (km/s) from isotropic moment analysis
-
Proton thermal speed Wperpendicular (km/s) from bimax moment analysis
-
Proton thermal speed Wparallel (km/s) from bimax moment analysis
-
Proton number density Np (n/cc) from moment analysis
-
---> Proton number density Np (n/cc) from moment analysis (log scale)
-
Magnetic field component Bx (GSE, nT) averaged over plasma measurement
-
Magnetic field component By (GSE, nT) averaged over plasma measurement
-
Magnetic field component Bz (GSE, nT) averaged over plasma measurement
-
Angluar deviation of magnetic field over plasma measurement [degrees]
-
Deviation in magnitude of field over plasma measurement [nT]
-
X (GSE) Position of Wind S/C at start of spectrum [Re]
-
Y (GSE) Position of Wind S/C at start of spectrum [Re]
-
Z (GSE) Position of Wind S/C at start of spectrum [Re]
-
Y (GSM) Position of Wind S/C at start of spectrum [Re]
-
Z (GSM) Position of Wind S/C at start of spectrum [Re]
-
Wind Radio/Plasma Wave, (WAVES) Hi-Res Parameters - M. L. Kaiser (GSFC) Wind Radio/Plasma Wave, (WAVES) High Res. Plasma Density - M. L. Kaiser (GSFC) Wind Radio/Plasma Wave, (WAVES) Key Parameters - M. L. Kaiser (GSFC)
-
Normalized receiver average voltage (RAD2, 1075-13825 kHz)
-
Normalized receiver average voltage (RAD1, 20-1040 kHz)
-
Normalized receiver average voltage (TNR, 4-245 kHz)
-
[NO PLOTS] Daily receiver minimum voltage (RAD2, 1075-13825 kHz, non-zero values show active freqs)
-
[NO PLOTS] Daily receiver minimum voltage (RAD1, 20-1040 kHz, non-zero values show active freqs)
-
[NO PLOTS] Daily receiver minimum voltage (TNR, 4-245 kHz, non-zero values show active freqs)
-
Electron density determined from insitu Fpe 'line'; position recognized by a neural network.
-
Electric field power in dB at the peak frequency selected by the neural network algorithm
-
Electron Density data quality: <50=bad,>50=Fair,>150=ok,>200=good
-
Electric field average intensity in dB above background at 76 log-spaced frequencies (250-9.4e6 Hz).
-
Electron density determined from insitu Fpe 'line'; position recognized by a neural network.
-
Transient electric field antenna max from Time Domain Sampler. 0 indicates no trigger.
-
Solar array current minimum for s/c
-
Solar array current maximum for s/c
-
Moon Position, Cartesian GSE coordinates
-
Time axis label: Moon Position, Cartesian GSE coordinates
-
OMNI Combined merged hourly magnetic field, plasma and ephermis data - J.H. King, N. Papatashvilli (AdnetSystems, NASA GSFC)